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47 Models
43 Visualizations
AD-related Research Models
Phenotypes Examined
- Plaques
- Tangles
- Neuronal Loss
- Gliosis
- Synaptic Loss
- Changes in LTP/LTD
- Cognitive Impairment
When visualized, these phenotypes will distributed over a 18 month timeline demarcated at the following intervals: 3mo, 6mo, 9mo, 1yr, 15mo, 18mo+.
3xTg
Observed
-
Plaques at 26
Extracellular Aβ deposits by 6 months in the frontal cortex, predominantly layers 4 and 5 and progress with age (Oddo et al., 2003).
-
Tangles at 52
By 12 months extensive tau immunoreactivity in CA1 neurons of the hippocampus, particularly pyramidal neurons, later in the cortex. No tau pathology at 6 months (Oddo et al., 2003).
-
Gliosis at 30
Increased density of GFAP immunoreactive astrocytes and IBA-1 immunoreactive microglia compared with wild-type mice at 7 months (Caruso et al., 2013). Development of gliosis may occur earlier.
-
Changes in LTP/LTD at 26
By 6 months decreased LTP compared with wild type controls. Impairment in basal synaptic transmission. No change at 1 month of age (Oddo et al., 2003).
-
Cognitive Impairment at 17
Cognitive impairment manifests at 4 months as a deficit in long-term retention and correlates with the accumulation of intraneuronal Aβ in the hippocampus and amygdala, but plaques and tangles are not yet apparent (Billings et al., 2005).
Absent
No Data
-
Neuronal Loss at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
Psen1, APP, MAPT | APP K670_M671delinsNL (Swedish), MAPT P301L, PSEN1 M146V | Psen1: Knock-In; APP: Transgenic; MAPT: Transgenic | Alzheimer's Disease | Age-related, progressive neuropathology including plaques and tangles. Extracellular Aβ deposits by 6 months in frontal cortex, more extensive by 12 months. No tau pathology at 6 months, but evident at 12 months. Synaptic dysfunction, including LTP deficits, prior to plaques and tangles. |
Cognitive impairment by 4 months. Impairments first manifest as a retention/retrieval deficit and not as a learning deficit, and occur prior to plaques and tangles. Deficits in both spatial and contextual based paradigms. Clearance of intraneuronal Aβ by immunotherapy rescues the early cognitive deficits in a hippocampal-dependent task. |
AAV-sTREM2 PS19
Observed
-
Synaptic Loss at 28
AAV-mediated expression of sTREM2 protected against hippocampal synapse loss in PS19 mice.
-
Changes in LTP/LTD at 29
LTP at Shaeffer collateral-CA1 synapses was slightly enhanced in hippocampal slices from 7-month-old AAV-sTREM2 PS19 mice, compared with PS19 mice who had received control vector.
-
Cognitive Impairment at 30
AAV-mediated expression of sTREM2 improved performance of PS19 mice in the Morris water maze and Y-maze.
Absent
No Data
-
Plaques at
No data.
-
Tangles at
No data.
-
Neuronal Loss at
No data.
-
Gliosis at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
TREM2, MAPT | MAPT P301S | TREM2: Virus; MAPT: Transgenic | Frontotemporal Dementia, Alzheimer's Disease | AAV-mediated expression of sTREM2 protected against hippocampal synapse loss in PS19 mice. |
AAV-mediated expression of sTREM2 improved performance of PS19 mice in the Morris water maze and Y-maze. |
AppNL-G-F/MAPT double knock-in
Observed
-
Plaques at 8
Plaques observed at 2 months.
-
Gliosis at 16
Astrogliosis and microgliosis observed by 4 months.
-
Cognitive Impairment at 52
Deficits in the Y-maze test of working memory at 12 months of age.
Absent
-
Tangles at
No neurofibrillary tangles observed up to 24 months of age.
-
Neuronal Loss at
No neurodegeneration observed up to 24 months of age.
No Data
-
Synaptic Loss at
No data.
-
Changes in LTP/LTD at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
App, MAPT | APP K670_M671delinsNL (Swedish), APP I716F (Iberian), APP E693G (Arctic) | App: Knock-In; MAPT: Knock-In | Alzheimer's Disease | Amyloid plaques, plaque-associated neuritic dystrophy, and neuroinflammation, similar to AppNL-G-F. |
Deficits in the Y-maze test of working memory, similar to AppNL-G-F. |
APP/PS1/rTg21221
Observed
-
Plaques at 35
Cortical plaques observed between 8-10 months. Plaques larger than in control mice not expressing human tau.
-
Neuronal Loss at 36
Neuronal loss observed adjacent to plaques relative to more distal areas.
-
Gliosis at 37
Increased astrocytosis adjacent to plaques relative to more distal areas.
-
Synaptic Loss at 40
Decreased synapse density adjacent to plaques relative to more distal areas.
Absent
-
Tangles at
No tangles. Aggregates of misfolded and phosphorylated tau observed between 8-10 months.
No Data
-
Changes in LTP/LTD at
No data.
-
Cognitive Impairment at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
APP, PSEN1, MAPT | APP K670_M671delinsNL (Swedish), PSEN1: deltaE9 | APP: Transgenic; PSEN1: Transgenic; MAPT: Transgenic | Alzheimer's Disease | Tau accumulations, dystrophic neurites, astrocytosis, neuronal loss, and synapse loss were more pronounced adjacent to cortical plaques. Tangles were not observed. |
No data. |
htau
Observed
-
Tangles at 39
Aggregated tau and paired helical filaments detectable at nine months by immunoelectron microscopy, although paired helical filaments of aggregated insoluble tau can be isolated from brain tissue as early as two months. Tau first redistributes from axons to cell bodies. Hyperphosphorylated tau begins to accumulate by six months, and increases further by 13 and 15 months (Andorfer et al., 2003).
-
Neuronal Loss at 43
Decrease in cortical thickness and reduced cell number between 10 and 14 months of age. Increased ventricle size increased from age eight months to 18 months. Decrease in the thickness of the corpus callosum (Andorfer et al., 2005).
-
Changes in LTP/LTD at 52
In hippocampal slices, LTP induced by high frequency stimulation (HFS) was normal at four months but abolished by 12 months. LTP induced by theta burst stimulation (TBS) was normal at both ages. Paired-pulse ratio (PPR) was unaffected at four months, but increased at 12 months compared with controls, suggesting a decrease in probability of transmitter release (Polydoro et al., 2009).
-
Cognitive Impairment at 26
Abnormal spatial learning in six-month-old mice compared with control mice (Phillips et al., 2011). Normal object recognition and spatial learning and memory by MWM at four months, but deficits by 12 months (Polydoro et al., 2009). Impaired burrowing relative to control mice occurs by four months (Geiszler et al., 2016).
Absent
No Data
-
Gliosis at
Unknown.
-
Synaptic Loss at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT: Knock-Out; MAPT: Transgenic | Alzheimer's Disease, Frontotemporal Dementia | Age-associated tau pathology, including redistribution of tau to cell bodies and dendrites, phosphorylated tau, accumulation of aggregated paired helical filaments, and ultimately thioflavin-S positive neurofibrillary tangles. Pathology most severe in neocortex and hippocampus, and minimal in the brain stem and spinal cord. Some neuronal loss. |
Normal object-recognition memory and spatial learning/memory (as assessed by the Morris Water Maze) at four months, but impaired at 12 months (Polydoro et al., 2009). |
hTau-A152T
Observed
-
Neuronal Loss at 87
Neuron loss in the hippocampus was observed by 20 months.
-
Gliosis at 17
Astrocytosis, but no differences in microglia.
-
Cognitive Impairment at 74
In the Morris water maze, performance was impaired after 17 months of age. Nest building was impaired at 10-14 months. Social interaction, anxiety, exploratory behavior, and motor functions were unaltered.
Absent
-
Tangles at
Abnormal accumulations of soluble tau were observed, but not tangles or tangle-like structures.
-
Changes in LTP/LTD at
Unchanged at 20 months.
No Data
-
Plaques at
No data.
-
Synaptic Loss at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT A152T | MAPT: Transgenic | Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy | Tangles or dense tau inclusions not observed. Abnormal accumulations of soluble tau. Age-dependent neuronal loss was observed in the hippocampus. |
Age-dependent learning and memory deficits in the Morris water maze. Nest building impaired. Social interaction, anxiety, exploratory behavior, and motor functions were normal. |
hTau-AT (hTau40-AT)
Observed
-
Tangles at 13
Tangles in hippocampus, cortex, and spinal cord starting at 3 months with age-dependent increases. Hyperphosphorylation, conformation changes, and mislocalization.
-
Neuronal Loss at 52
Neuron loss in the hippocampus and cortex at 12 months.
-
Gliosis at 43
Astrocytosis and microgliosis at 10 months.
-
Synaptic Loss at 87
Synaptophysin, but not PSD95, decreased in hippocampus and cortex at 12 months. By Golgi staining, spines unchanged in CA1 at 10 months, increased in CA3 at 12 months, and decreased in CA1 and CA3 at 16 months.
-
Cognitive Impairment at 70
No change at 10 months but at 16 months deficits in learning and memory (Morris water maze).
Absent
-
Changes in LTP/LTD at
Unchanged at 12 months.
No Data
-
Plaques at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT A152T | MAPT: Knock-In | Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy | Tangles in hippocampus, cortex, and spinal cord at 3 months with age-dependent increases. Tau hyperphosphorylation, conformation changes, and mislocalization observed. Age-dependent loss of synapses. |
Age-dependent learning and memory deficits in the Morris water maze. Motor functions normal. |
hTau.P301S
Observed
-
Tangles at 17
Neurofibrillary tangles detected as early as 4 months of age.
-
Neuronal Loss at 13
Neuronal loss starting at 3 months. Loss is especially prominent in the spinal cord with notable loss of superficial cortical neurons as well (Hampton et al., 2010).
-
Gliosis at 22
Astrocytosis, as measured by GFAP reactivity, in 6 month-old animals. Microglial activation in the brain stem and spinal cord of 5 month-old animals by OX42 staining (Bellucci et al., 2004).
-
Cognitive Impairment at 11
Memory deficit starting at 2.5 months as assessed by the Morris water maze (Xu et al., 2014), but no deficit at 2 months (Scattoni et al., 2010).
Absent
-
Plaques at
Absent.
No Data
-
Synaptic Loss at
Unknown.
-
Changes in LTP/LTD at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT P301S | MAPT: Transgenic | Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy | Age-dependent hyperphosphorylation of tau and conformational changes leading to neurofibrillary tanglelike pathology in the cerebral cortex, hippocampus, brain stem, and spinal cord. Neurodegeneration, especially in the spinal cord, accompanied by astrocytosis. |
Early motor impairment, including abnormal clasping and rotarod deficit at 4 months, with nearly complete deficit at 5 months. Deficits progress to severe paraparesis. Disinhibition and hyperactivity at 2 to 3 months. |
JNPL3(P301L)
Observed
-
Tangles at 20
Neurofibrillary tangles develop in an age and gene-dose dependent manner; as early as 4.5 months in homozygotes and 6.5 months in heterozygotes. Tangles and Pick-body-like neuronal inclusions in the amygdala, septal nuclei, preoptic nuclei, hypothalamus, midbrain, pons, medulla, deep cerebellar nuclei and spinal cord (Lewis et al., 2000).
-
Neuronal Loss at 43
Neuronal loss, especially in the spinal cord, most prominent in the anterior horn (Lewis et al., 2000).
-
Gliosis at 43
Astrogliosis (as measured by GFAP reactivity) in brainstem, diencephalon, and basal telencephalon by 10 months (Lewis et al., 2000).
Absent
-
Plaques at
Absent.
No Data
-
Cognitive Impairment at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT P301L | MAPT: Transgenic | Frontotemporal Dementia, Progressive Supranuclear Palsy, Alzheimer's Disease | Age and gene-dose dependent development of neurofibrillary tangles as early as 4.5 months in homozygotes and 6.5 months in heterozyotes. Tangles and Pick-body-like inclusions in the amygdala, hypothalamus, pons, medulla, and spinal cord among other areas. Neuronal loss, especially in the spinal cord. |
By 10 months, 90% developed motor and behavioral disturbances including limb weakness, hunched posture, decrease in grooming and vocalization. |
MAPT 10IVS+16 C>T
Observed
Absent
No Data
-
Plaques at
No data.
-
Tangles at
No data.
-
Neuronal Loss at
No data.
-
Gliosis at
No data.
-
Synaptic Loss at
No data.
-
Changes in LTP/LTD at
No data.
-
Cognitive Impairment at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT, MAPT-AS1, Mapt | MAPT IVS10+16 C>T | MAPT: Knock-In; MAPT-AS1: Knock-In; Mapt: Knock-Out | Frontotemporal Dementia | Unknown. |
Unknown. |
MAPT(H1.0)-GR
Observed
Absent
No Data
-
Plaques at
No data.
-
Tangles at
No data.
-
Neuronal Loss at
No data.
-
Gliosis at
No data.
-
Synaptic Loss at
No data.
-
Changes in LTP/LTD at
No data.
-
Cognitive Impairment at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT, MAPT-AS1, Mapt | MAPT: Knock-In; MAPT-AS1: Knock-In; Mapt: Knock-Out | Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy | Unknown. |
Unknown. |
MAPT(H1.0*N279K)-GR
Observed
Absent
No Data
-
Plaques at
No data.
-
Tangles at
No data.
-
Neuronal Loss at
No data.
-
Gliosis at
No data.
-
Synaptic Loss at
No data.
-
Changes in LTP/LTD at
No data.
-
Cognitive Impairment at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT, MAPT-AS1, Mapt | MAPT N279K | MAPT: Knock-In; MAPT-AS1: Knock-In; Mapt: Knock-Out | Frontotemporal Dementia | Unknown. |
Unknown. |
MAPT(H1.0*)P301L-GR
Observed
Absent
No Data
-
Plaques at
No data.
-
Tangles at
No data.
-
Neuronal Loss at
No data.
-
Gliosis at
No data.
-
Synaptic Loss at
No data.
-
Changes in LTP/LTD at
No data.
-
Cognitive Impairment at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT, MAPT-AS1, Mapt | MAPT P301L | MAPT: Knock-In; MAPT-AS1: Knock-In; Mapt: Knock-Out | Frontotemporal Dementia | Unknown. |
No overt behavioral phenotypes |
MAPT(H2.1)-GR
Observed
Absent
No Data
-
Plaques at
No data.
-
Tangles at
No data.
-
Neuronal Loss at
No data.
-
Gliosis at
No data.
-
Synaptic Loss at
No data.
-
Changes in LTP/LTD at
No data.
-
Cognitive Impairment at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT, MAPT-AS1, Mapt | MAPT: Knock-In; MAPT-AS1: Knock-In; Mapt: Knock-Out | Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy | Unknown. |
Unknown. |
MAPT knock-in
Observed
Absent
-
Plaques at
No amyloid plaques at 24 months of age.
-
Tangles at
No neurofibrillary tangles at 24 months of age.
-
Neuronal Loss at
Neurodegeneration not apparent up to 2 years of age.
-
Gliosis at
No astrogliosis or microgliosis observed at 24 months.
-
Cognitive Impairment at
At 12 months of age, MAPT knock-in mice perform similarly to wild-type mice in the Y-maze test of working memory (only males tested).
No Data
-
Synaptic Loss at
No data.
-
Changes in LTP/LTD at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT: Knock-In | Alzheimer's Disease, Other Tauopathy | No evidence of increased neuroinflammation, neuronal death, or brain atrophy in MAPT knock-in mice, compared with wild-type mice. |
MAPT knock-in mice perform similarly to wild-type mice in the Y-maze test of working memory. |
mThy-1 3R Tau (line 13)
Observed
-
Tangles at 34
Pick-body like inclusions of aggregated tau appeared in the hippocampus and cortex by 8-10 months. Inclusions were positive for Bielchowsky silver stain but negative for Gallyas-silver stain and Thioflavin-S.
-
Neuronal Loss at 34
Neuronal loss occurred by 8-10 months as evidenced by decreased NeuN staining in the dentate gyrus and CA3 regions of the hippocampus. Neocortical volume also decreased.
-
Gliosis at 35
Astrogliosis was seen by 8-10 months in the neocortex and hippocampus. Some GFAP+ astrocytes also contained 3R tau.
-
Cognitive Impairment at 26
By 6-8 months memory impairment was evident as a failure to habituate to a novel environment. This deficit was not present at 3-4 months. At 8-10 months, transgenics also took longer than wild-type mice to find the hidden platform in the Morris water maze.
Absent
-
Plaques at
Absent.
No Data
-
Synaptic Loss at
Synapto-dendritic damage manifested as reduced dendritic density, reduced MAP2 immunoreactivity, and accumulation of 3R tau in dendrites.
-
Changes in LTP/LTD at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT L266V, MAPT G272V | MAPT: Transgenic | Frontotemporal Dementia, Pick's disease, Alzheimer's Disease | Accumulation of 3R tau in neurons of the cortex and hippocampus. Pick body-like tau aggregates and neuronal loss in the hippocampus and cortex. Astrogliosis, with some 3R tau in GFAP-positive astrocytes. Synapto-dendritic changes and mitochondrial pathology. |
Age-related memory and motor deficits as assessed by habituation to a novel environment, the Morris water maze, and the round beam test. |
PLB1-triple (hAPP/hTau/hPS1)
Observed
-
Gliosis at 52
Increased inflammation (GFAP labelling) detected at 12 months in cortex and hippocampus (Platt, unpublished observation).
-
Changes in LTP/LTD at 26
Impairments in long-term and short-term hippocampal plasticity. LTP following theta-burst stimulation decayed faster and paired-pulse facilitation was reduced relative to wild-type mice at both six and 12 months of age. Synaptic transmission impacted at 12 months.
-
Cognitive Impairment at 22
Social recognition memory was impaired by five months and further impaired by 12 months. Similarly, object recognition memory was impaired by eight months. Spatial learning impairments were seen later; at 12 months deficits in spatial acquisition learning were seen in the open field water maze that were not apparent at 5 months.
Absent
-
Plaques at
Sparse plaques out to 21 months of age. Only marginally increased compared with wild-types and overall very low compared to over-expression models. However, Aβ accumulated intracellularly and also formed oligomers.
-
Tangles at
No overt tangle pathology; however, hyyperphosphorylated tau accumulated in the hippocampus and cortex from six months of age.
-
Neuronal Loss at
Absent.
No Data
-
Synaptic Loss at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
APP, MAPT, PSEN1 | APP V717I (London), APP K670_M671delinsNL (Swedish), PSEN1 A246E, MAPT P301L, MAPT R406W | APP: Multi-transgene; MAPT: Multi-transgene; PSEN1: Multi-transgene | Alzheimer's Disease | Age-related neuropathology including intraneuronal and oligomeric Aβ accumulation and hyperphosphorylated tau in the hippocampus and cortex from six months. Minimal amyloid plaques up to 21 months. Subtle tau pathology, but no overt tangles. Cortical hypometabolism with increased metabolic activity in basal forebrain and ventral midbrain by FDG-PET/CT. |
Cognitive deficits in recognition memory and spatial learning emerging between five and 12 months. Impairments in hippocampal plasticity. |
PS19 with humanized TREM2 (common variant)
Observed
-
Tangles at 37
Tangles revealed using antibody PG5 at 9 months.
-
Neuronal Loss at 38
At 9 months, atrophy of hippocampus and entorhinal/piriform cortex and pronounced ventricular expansion. Thinning of the granule cell layer of the dentate gyrus and pyramidal cell layer of the piriform cortex, compared with PS19 mice carrying TREM2-R47H.
-
Gliosis at 39
Elevated expression of markers of astroglial and microglial reactivity, compared with PS19 mice carrying the R47H variant of TREM2.
-
Synaptic Loss at 40
Fewer synapses and more dystrophic synapses, compared with PS19 mice carrying the R47H variant of TREM2.
Absent
No Data
-
Plaques at
No data.
-
Changes in LTP/LTD at
No data.
-
Cognitive Impairment at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT, TREM2, Trem2 | MAPT P301S | MAPT: Transgenic; TREM2: Transgenic; Trem2: Knock-Out | Alzheimer's Disease, Frontotemporal Dementia | Brain atrophy by 9 months of age. Increased microgliosis, astrogliosis and synapse loss, compared with PS19 mice carrying TREM2 with the R47H mutation. |
Not known. |
PS19 with humanized TREM2 (R47H)
Observed
-
Tangles at 36
Tangles revealed using antibody PG5 at 9 months.
Absent
No Data
-
Plaques at
No data.
-
Neuronal Loss at
No data relative to wild-type mice, but at 9 months of age, the volumes of the hippocampus and entorhinal/piriform cortex are larger, and the granule cell layer of the dentate gyrus and pyramidal cell layer of the piriform cortex are thicker, in PS19-TREM2R47H mice, compared with PS19 mice carrying the common variant of human TREM2.
-
Gliosis at
At 9 months of age, decreased expression of markers of astroglial and microglial reactivity, compared with PS19 mice carrying the common variant of TREM2, but no data relative to wild-type mice.
-
Synaptic Loss at
At 9 months of age, more synapses and fewer dystrophic synapses, compared with PS19 mice carrying the common variant of TREM2, but no data relative to wild-type mice.
-
Changes in LTP/LTD at
No data.
-
Cognitive Impairment at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT, TREM2, Trem2 | MAPT P301S, TREM2 R47H | MAPT: Transgenic; TREM2: Transgenic; Trem2: Knock-Out | Alzheimer's Disease, Frontotemporal Dementia | Decreased brain atrophy, microgliosis, astrogliosis, and synapse loss, compared with PS19 mice carrying the common variant of TREM2. |
Not known. |
rTgTauEC
Observed
-
Tangles at 78
By 18 months of age, Gallyas silver-positive staining is observed, indicative of paired helical filaments. This is followed by thioflavin-S staining at 24 months. Tau pathology develops first in neurons of the medial EC expressing human tau, followed by neurons in the dentate gyrus, CA1 and CA2/3(de Calignon et al., 2012).
-
Neuronal Loss at 83
Neuronal loss is detectable by 24 months of age in areas with transgene expression (e.g. layer II of the EC and parasubiculum), compared with age-matched mice expressing only tTA. Significant neuronal loss was not observed at 21 months (de Calignon et al., 2012).
-
Gliosis at 104
Microglial activation and astrogliosis by 24 months of age, in conjunction with axonal degeneration and neuronal loss (de Calignon et al., 2012).
-
Synaptic Loss at 104
By 24 months of age pre- and post-synaptic densities were reduced in the middle third of the molecular layer of the dentate gyrus as measured by synapsin-1 and PSD-95 staining (de Calignon et al., 2012).
-
Changes in LTP/LTD at 70
At 16 months of age, subtle differences in electrophysiological properties have been observed in the perforant pathway, including a decrease in LTP and an increase in the probability of neurotransmitter release (Polydoro et al., 2014).
-
Cognitive Impairment at 70
Very mild and specific deficits in contextual fear conditioning at 16 months of age, but no deficits in the radial arm maze (Polydoro et al., 2014).
Absent
-
Plaques at
Absent.
No Data
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT P301L | MAPT: Transgenic | Frontotemporal Dementia, Alzheimer's Disease | Propagating tau pathology starting in the entorhinal cortex and spreading to regions functionally connected to the EC (e.g., dentate gyrus). Neurodegeneration and axonal degeneration, first in EC and parasubiculum. Gliosis and synaptic loss. |
Subtle cognitive deficit in contextual fear conditioning, but not in the radial arm maze, at 16 months. Mild specific deficit in locomotor activity in the open field test. |
rTg(tauP301L)4510
Observed
-
Tangles at 17
Pretangles as early as 2.5 months. Argyrophilic tangle-like inclusions in cortex by 4 months and in hippocampus by 5.5 months.
-
Neuronal Loss at 24
Decreased (~60%) CA1 hippocampal neurons by 5.5 months with significant loss in brain weight. Progressive loss of neurons and brain weight in 7 and 8.5 month mice with ~23% of CA1 pyramidal cells remaining at 8.5 months. Gross atrophy of the forebrain by 10 months.
-
Synaptic Loss at 35
Significant loss of dendritic spines at 8-9 months (~30% decrease in spine density in somatosensory cortex).
-
Cognitive Impairment at 11
Retention of spatial memory (Morris Water Maze) became impaired from 2.5 to 4 months. No significant motor impairments up to 6 months. Spatial memory improved when transgene suppressed by dox.
Absent
-
Plaques at
Absent.
No Data
-
Changes in LTP/LTD at
LTP at the Schaffer collateral-CA1 synapse is normal at 1.3 months, but impaired at 4.5 months.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT P301L | MAPT: Transgenic | Alzheimer's Disease, Frontotemporal Dementia | Argyrophilic tangle-like inclusions in cortex by 4 months and in hippocampus by 5.5 months. Decreased CA1 neurons (~60 percent) by 5.5 months. Gross forebrain atrophy by 10 months. The number of CA1 neurons stabilized after a brief (six to eight week) suppression of transgenic tau. |
Spatial memory impairments by 2.5 to 4 months. No significant motor impairment up to 6 months of age. When the transgene was suppressed with dox at 2.5 months, spatial memory improved. |
SHR24
Observed
-
Tangles at 38
Argyrophilic neurofibrillary tangles accumulate in cortex, hippocampus, thalamus, and brainstem.
-
Synaptic Loss at 60
Decreased levels of synaptophysin and a decreased number of synaptic vesicles per synapse in animals at the end of the lifespan of this line.
Absent
-
Neuronal Loss at
No neuron loss was observed in the hippocampi or cortices of male rats examined at 15 month of age.
No Data
-
Plaques at
No data.
-
Gliosis at
No data.
-
Changes in LTP/LTD at
No data.
-
Cognitive Impairment at
Sensorimotor deficits and abnormal reflexes observed as early as 3.5 months, but no data available from cognitive tests.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT: Transgenic | Alzheimer's Disease | Neurofibrillary tangles accumulate in cortex, hippocampus, thalamus, and brainstem, beginning at 9 to 10 months. No neuron loss was observed in the hippocampus or cortex. |
SHR24 rats exhibit age-dependent impairments in several neurobehavioral tests; hind-limb clasping during the tail-hang test is one of the earliest abnormalities to appear, evident by 3.5 months of age. |
SHR318
Observed
-
Tangles at 38
Argyrophilic neurofibrillary tangles are particularly prominent in the brainstem and spinal cord.
-
Cognitive Impairment at 18
At 4.5 months, rats show normal learning, but deficits in spatial memory, in the Morris water maze.
Absent
-
Neuronal Loss at
Neuron numbers in the hippocampi and brainstem gigantocellular reticular nucleus do not differ between 10.5-month SHR318 rats and non-transgenic rats.
No Data
-
Plaques at
No data.
-
Gliosis at
No data.
-
Synaptic Loss at
No data.
-
Changes in LTP/LTD at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT: Transgenic | Alzheimer's Disease | Neurofibrillary tangles first appear at 9 months and are particularly prominent in the brainstem and spinal cord. Axonal degeneration is observed in the brainstem and spinal cord of 10- to 12-month animals. |
At 4.5 months, rats show normal learning, but deficits in spatial memory, in the Morris water maze. Reflexes and sensorimotor coordination are impaired at 7 months. |
SHR72
Observed
-
Tangles at 30
Neurofibrillary tangles, demonstrated by Gallyas silver stain, are present in the brainstem and spinal cord.
-
Gliosis at 29
Astrogliosis and microgliosis are present in brainstem regions bearing neurofibrillary tangles.
Absent
-
Neuronal Loss at
Although neuron loss has not been documented, chromatolytic neurons and damaged axons were seen in the brains of 7-month animals, particularly in the brainstem reticular formation.
No Data
-
Plaques at
No data.
-
Synaptic Loss at
No data.
-
Changes in LTP/LTD at
No data.
-
Cognitive Impairment at
Sensorimotor deficits and abnormal reflexes observed as early as 3 months, but no data available from cognitive tests.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT: Transgenic | Alzheimer's Disease | Neurofibrillary tangles, demonstrated by Gallyas silver stain, were found the brainstems and spinal cords of terminal stage (7- to 8-month old) animals. Chromatolytic neurons and damaged axons were also observed at this stage. |
Sensorimotor deficits and loss of muscle strength are apparent at 3 months. This stage lasted about three months, and then rats experienced a rapid, dramatic decline in neurological function, succumbing within several days. |
Tau35
Observed
-
Tangles at 35
Abnormally phosphorylated tau detected at two months and by eight months tau was mislocalized and misfolded and dystrophic neurites were observed. Tangle-like structures observed in the hippocampus by 14 months.
-
Synaptic Loss at 61
At 14 months synapsin1 protein levels were decreased but synaptophysin levels remained at wild-type levels.
-
Cognitive Impairment at 36
In the Morris water maze, Tau35 had the same performance as wild-type animals at six months but developed progressive deficits by eight months.
Absent
-
Gliosis at
Gliosis was not observed at 14 months.
No Data
-
Plaques at
Unknown.
-
Neuronal Loss at
Cell death was not formally assessed, however, overt neuronal death was not seen in the hippocampus.
-
Changes in LTP/LTD at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT: Transgenic | Progressive Supranuclear Palsy, Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy | Progressive tau pathology in the hippocampus, including abnormally phosphorylated and misfolded tau, mislocalized tau, and tangle-like structures. Dystrophic neurites. |
Impaired spatial learning and memory in the Morris water maze. Early motor impairments, including abnormal limb clasping, Rotarod deficits and decreased grip strength. |
Tau4RTg2652
Observed
-
Cognitive Impairment at 13
Deficits in spatial learning and memory as indicated by performance in the Barnes maze at multiple time points (3, 6, 11 months of age).
Absent
-
Plaques at
Absent.
-
Tangles at
Absence of mature neurofibrillary tangles, but extensive pretangle pathology throughout the brain (e.g. phospho-tau).
-
Neuronal Loss at
Absent.
No Data
-
Gliosis at
Unknown.
-
Synaptic Loss at
Unknown.
-
Changes in LTP/LTD at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT: Transgenic | Frontotemporal Dementia, Other Tauopathy, Alzheimer's Disease | Extensive pretangle pathology throughout the brain (e.g. phospho- tau) but no mature neurofibrillary tangles and only mild oligomeric tau, restricted to the CA1 region of the hippocampus. Dystrophic neurites and axonal pathology (spheroids). No overt neuronal loss. |
Motor deficits develop with age, including decreased grip strength and impaired Rotarod performance. Cognitive deficits, indicative of impaired spatial learning and memory, as assessed by the Barnes maze. |
Tau609 (Tau 10 + 16)
Observed
-
Tangles at 65
Gallyas silver-positive intracellular inclusions of hyperphosphorylated tau aggregates in the entorhinal cortex at 15 months, and in the hippocampus and cerebral cortex at 24 months, but not at 18 months.
-
Neuronal Loss at 65
Significant loss of NeuN-positive neurons in layer II of the entorhinal cortex at 15 months, and in the hippocampal CA1 region at 24 months, compared with non-Tg controls. No difference in the hippocampus at 18 months.
-
Gliosis at 52
At 12 months of age, Iba1-positive cells are observed. GFAP is observed at 24 months of age.
-
Synaptic Loss at 28
Reduced synaptic density at 6 months of age in select hippocampal areas compared to non-Tg mice and those expressing wild-type human tau. Densities in other areas were comparable until later ages (i.e., 24 months).
-
Changes in LTP/LTD at 26
Some changes in basal synaptic transmission and significant impairment of LTP evident by 6 months of age in some regions of the hippocampus.
-
Cognitive Impairment at 26
Deficits in spatial reference memory by 6 months of age as measured by the Morris water maze. No difference from non-Tg littermates at 4 months of age.
Absent
-
Plaques at
Absent.
No Data
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT IVS10+16 C>T | MAPT: Transgenic | Frontotemporal Dementia, Alzheimer's Disease, Other Tauopathy | Aggregated tau in neurons of the entorhinal cortex, hippocampus, and cerebral cortex at advanced ages. Intraneuronal accumulation of tau oligomers in the hippocampus. Neuronal loss in the entorhinal cortex and hippocampus. Gliosis. Some hippocampal areas affected by age-related synaptic dysfunction and reduced synaptic density. |
Impaired spatial reference memory as measured by the Morris water maze by 6 months of age. |
TauA152T-AAV
Observed
-
Neuronal Loss at 10
Neuron loss in cortex, seen at 3 months.
-
Gliosis at 11
Astrogliosis, but not microgliosis, seen at 3 months.
-
Cognitive Impairment at 12
Deficits in contextual and cued fear conditioning, seen at 3 months.
Absent
No Data
-
Plaques at
No data.
-
Tangles at
No data.
-
Synaptic Loss at
No data.
-
Changes in LTP/LTD at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT A152T | MAPT: Virus | Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy | Neuron loss and astrogliosis were observed in the cortices of 3-month-old mice. |
Compared with GFP-AAV controls, TauA152T-AAV mice showed deficits in contextual and cued fear conditioning, increased hyperactivity, and decreased rearing in the open-field test, and spent more time in the open arms of the elevated plus maze. TauA152T-AAV mice also exhibited motor impairment on the Rotarod. |
TauC3 (Transgenic caspase-cleaved tau)
Observed
-
Synaptic Loss at 6
Reduced levels of synaptic proteins as early as 1.3 months, including synaptophysin. Further reductions in 3 and 6-month-old animals.
-
Cognitive Impairment at 6
Learning and memory impairments as early as 1.3 months in several behavioral tests including the Y-maze, passive avoidance, and novel object recognition.
Absent
-
Plaques at
Amyloid plaques were absent.
-
Tangles at
Neurofibrillary tangles were not observed; however, hyperphosphorylated tau occurred early in the form of oligomers and aggregates.
-
Neuronal Loss at
No significant neurodegeneration by 12 months of age.
-
Gliosis at
No significant astrogliosis in the hippocampus or cortex by 12 months of age.
No Data
-
Changes in LTP/LTD at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT: Transgenic | Alzheimer's Disease, Frontotemporal Dementia | No significant cell loss or astrogliosis in the brain. Age-dependent reduction in synaptic proteins (e.g. synaptophysin, PSD95) by 1.3 to 3 months of age. Hyperphosphorylated tau oligomers and aggregates. |
Learning and memory deficits by 1.3 to 3 months of age, as assessed by the Y-maze and passive avoidance tests. No significant motor impairment. |
TauΔK280 ("Proaggregation mutant")
Observed
-
Tangles at 104
Mature tangles are observed only at advanced age (>24 months), but extensive pre-tangle pathology develops with as little as three months of transgene expression. This includes mislocalization of tau to the somatodendritic compartment, conformational changes indicative of aggregation, and hyperphosphorylation (e.g. Ser 262, Ser 356).
-
Synaptic Loss at 57
Electron microscopy showed a moderate decrease in spine synapses in the CA1 region of the hippocampus following 13 months of gene expression.
-
Changes in LTP/LTD at 52
Impaired hippocampal LTP in the CA1 and CA3 areas.
-
Cognitive Impairment at 70
Cognitive deficits in the Morris water maze and in passive-avoidance paradigms.
Absent
-
Plaques at
Absent.
-
Neuronal Loss at
Absent.
No Data
-
Gliosis at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT K280del | MAPT: Transgenic | Alzheimer's Disease, Frontotemporal Dementia | Abundant pre-tangle pathology, but only rare mature tangles, and only at advanced ages. Tau pathology included mislocalization of tau to the somatodendritic compartment, aggregation, and hyperphosphorylation. |
Unknown. |
Tau P301L
Observed
-
Tangles at 35
Hyperphosphorylation, conformational changes, and aggregation of tau resulting in tangle-like pathology by 8 months.
-
Gliosis at 30
Astrogliosis by 7 months.
-
Changes in LTP/LTD at 26
Deficit in LTP in CA1 region of the hippocampus at 6 months, but enhanced LTP in the dentate gyrus at a young age (8-10 weeks).
-
Cognitive Impairment at 22
Age-associated deficit in two cognitive tests that do not depend heavily on motor ability, the passive avoidance task (significant deficit starting at 5 months, but not 2 or 3 months of age) and a novel object recognition task (significant deficit at 9 months, but not at 2, 3, 5, or 7 months of age) (Maurin et al., 2014).
Absent
-
Plaques at
Absent.
No Data
-
Neuronal Loss at
Unknown.
-
Synaptic Loss at
Unknown at advanced age. Young mice (1-2 months) have a significantly higher spine maturation index than controls. At 4-6 months, the spine maturation index remains high in the hippocampus, but is reduced to control levels in the cortex. Note, these results were generated using the progeny of Tau P301L x transgenic Thy1-YFP (Kremer et al., 2011).
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT P301L | MAPT: Transgenic | Alzheimer's Disease, Frontotemporal Dementia | Pathologic hyperphosphorylation and conformational change of parenchymal tau in brain tissues starting at 7 months. Tangle-like pathology is mainly observed in the brain stem and spinal cord, and to a lesser extent in the midbrain and cerebral cortex. Age-dependent increase in total tau in CSF. |
Age-associated deficits in a passive avoidance task (starting at 5 months) and a novel object recognition task (starting at 9 months). At a young age (~2 months) outperforms wild-type littermates in object recognition memory. Progressive motor impairment and reduced activity, accompanied by increased clasping of hind and then forelimbs around seven months. |
TauP301L-AAV
Observed
-
Tangles at 24
Argyrophilic, Thioflavin S-positive neurofibrillary tangles in cortex and hippocampus.
-
Gliosis at 12
Astrogliosis and microgliosis observed at 3 months.
-
Cognitive Impairment at 24
Deficits in cued and contextual fear conditioning observed at 6 months.
Absent
-
Neuronal Loss at
No cortical neuron loss at 6 months.
No Data
-
Plaques at
No data.
-
Synaptic Loss at
The accumulation of a PSD95 fragment suggests the possibility of synaptic abnormalities, although synaptic structure and function have not been assessed directly.
-
Changes in LTP/LTD at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT P301L | MAPT: Virus | Alzheimer's Disease, Frontotemporal Dementia, Other Tauopathy | Neurofibrillary tangles and gliosis, but no cortical neuron loss, at 6 months of age. |
Hyperactivity in the open field, decreased time spent in the center of open field, more time spent in the open arms of the elevated plus maze, and deficits in cued and contextual fear conditioning at 6 months of age. |
Tau P301S (Line PS19)
Observed
-
Tangles at 23
Neurofibrillary tangles in the neocortex, amygdala, hippocampus, brain stem and spinal cord at six months with progressive accumulation (Yoshiyama et al., 2007).
-
Neuronal Loss at 39
Neuron loss in the hippocampus and entorhinal cortex by nine to12 months, as well as in the amygdala and neocortex becoming more severe by 12 months (Yoshiyama et al., 2007).
-
Gliosis at 11
Microgliosis at three months, especially in the white matter of the brain and spinal cord. Increased microgliosis by six months in white and gray matter of the hippocampus, amygdala, entorhinal cortex, and spinal cord. Microglial activation precedes astrogliosis (Yoshiyama et al., 2007).
-
Synaptic Loss at 13
Synaptophysin immunoreactivity decreased progressively from three to six months in the CA3 region of the hippocamus. Impaired synaptic function (Yoshiyama et al., 2007).
-
Changes in LTP/LTD at 26
Reduced LTP in the CA1 region of the hippocampus at six months. Altered basal synaptic transmission (smaller fiber volley amplitude, fEPSP slopes, and amplitudes) (Yoshiyama et al., 2007). Impaired hippocampal LTP as measured in freely moving mice (Lasagna-Reeves, 2016).
-
Cognitive Impairment at 27
Impairments in spatial learning and memory ability in the Morris water maze in six-month-old animals (Takeuchi et al., 2011). Impaired memory in assays of contextual fear conditioning (Lasagna-Reeves 2016).
Absent
-
Plaques at
Absent.
No Data
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT P301S | MAPT: Transgenic | Alzheimer's Disease, Frontotemporal Dementia | Neuron loss and brain atrophy by eight to 12 months, especially in the hippocampus and spreading to the neocortex and entorhinal cortex. Neurofibrillary tangles in the neocortex, amygdala, hippocampus, brain stem, and spinal cord. Neuroinflammation with microgliosis and astrocytosis. |
Impairments in spatial memory and learning ability in Morris water maze. Paralysis at seven to 10 months associated with a hunched-back posture followed by feeding difficulties. About 80 percent mortality by 12 months with median survival of about nine months. |
TauPS2APP
Observed
-
Plaques at 17
Rare amyloid plaques at 4 months, plaques become more abundant with age. By 8 months the number of amyloid plaques increases considerably in the subiculum and the CA1 region of the hippocampus (Grueninger et al., 2010).
-
Tangles at 70
Abnormally phosphorylated tau is detectable at 4 months in both TauPS2APP and tau single transgenic mice especially in the subiculum, amygdala, and the CA1 region of the hippocampus. Tau pathology increases with age with numerous tangle-like deposits in the hippocampus confirmed by Gallyas silver staining at 16 months (Grueninger et al., 2010).
-
Cognitive Impairment at 17
Impairment is not age-associated and does not progress from age 4 months to 12 months (Grueninger et al., 2010).
Absent
-
Neuronal Loss at
No overt neuronal loss in the hippocampus at 16 months (Grueninger et al., 2010).
No Data
-
Gliosis at
Unknown.
-
Synaptic Loss at
Unknown.
-
Changes in LTP/LTD at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
APP, MAPT, PSEN2 | APP K670_M671delinsNL (Swedish), MAPT P301L, PSEN2 N141I | APP: Transgenic; MAPT: Transgenic; PSEN2: Transgenic | Alzheimer's Disease | Phosphorylated tau accumulation in the subiculum and the CA1 region of the hippocampus at 4 months. Neurofibrillary tangles in these regions as well as the amygdala. Amyloid plaques. Dystrophic neurites and neuropil threads containing abnormally phosphorylated tau. No overt neuronal loss. |
Impaired spatial learning in the Morris water maze at 4 months but impairment is not progressive between 4 and 12 months and appears to be independent of pathology. |
Tau R406W transgenic
Observed
-
Tangles at 78
Congophilic tau inclusions in a subset of forebrain neurons around 18 months of age. Detected by Congo red, thioflavin S, and Gallyas silver stain.
-
Cognitive Impairment at 70
Impairments in the contextual and cued fear conditioning test at 16–23 months compared with wild-type littermates. No detectable sensorimotor deficits.
Absent
-
Plaques at
Absent.
No Data
-
Neuronal Loss at
Unknown.
-
Gliosis at
Unknown.
-
Synaptic Loss at
Unknown.
-
Changes in LTP/LTD at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT R406W | MAPT: Transgenic | Frontotemporal Dementia, Alzheimer's Disease | Argyrophilic and congophilic tau inclusions in neurons of the forebrain with age. Detectable with Congo red, thioflavin-S and Gallyas silver stain. Congophilic tau inclusions also in the hippocampus and amygdala. Mainly straight tau filaments. |
Impairments in contextual and cued fear conditioning at 16–23 months compared with wild-type littermates. No detectable sensorimotor deficits. |
TauRDΔK280 (“Proaggregation mutant”)
Observed
-
Tangles at 9
Tau tangles and aggregates with as little as 2-3 months of transgene expression. Tangles start in the entorhinal cortex and amygdala and spread to the neocortex by 15 months. Heterogeneous tangle morphology, including flame-shaped.
-
Neuronal Loss at 22
Neuronal loss in the dentate gyrus (granule neurons) following 5 months of transgene expression. Shrinkage of the molecular layer of the hippocampus.
-
Gliosis at 91
Astrogliosis in the hilus region of the hippocampus after 21 months of transgene expression. Additional increases in GFAP-positive astrocytes in the entorhinal and piriform cortices.
-
Synaptic Loss at 41
Hippocampal synaptic loss as indicated by multiple measures following 9.5 months of transgene expression. Reduced synaptophysin immunoreactivity and reduced number of spine synapses as measured by electron microscopy.
-
Changes in LTP/LTD at 43
Multiple deficits in synaptic plasticity, including deficits in LTP and LTD, after 10 months of transgene expression. Functional changes are associated with structural synaptic changes, local calcium dysregulation, and a decrease in the synaptic vesicle pool.
-
Cognitive Impairment at 43
Learning and memory impairments are apparent after 10 months of transgene expression as assessed by the Morris water maze and passive avoidance tasks.
Absent
-
Plaques at
Absent.
No Data
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT K280del | MAPT: Transgenic | Alzheimer's Disease, Frontotemporal Dementia | Tau aggregates and tangles as early as 2-3 months after gene expression. Gallyas silver-positive neurons abundant in the entorhinal cortex and amygdala, spreading to the neocortex by 15 months. “Ballooned” neurons. Astrogliosis. Synaptic structural changes and reduced synaptic number. Hippocampal neuronal loss. |
Reversible learning and memory deficits in the Morris water maze and passive avoidance test. No significant motor deficit, although slight reduction in Rotarod performance. |
Tau V337M
Observed
-
Tangles at 48
Fibrillar staining in the hippocampus of 11 month old animals by Congo red birefringence. Absent in 4 month old mice, indicating the formation of these neurofilament-like structures occurs between 4 and 11 months (Tanemura et al., 2001).
-
Neuronal Loss at 43
Evidence of hippocampal neuronal degeneration in 10 month old animals: irregularly shaped neurons with tau pathology that stained with propidium iodide. As characteristics of apoptosis were not observed, the neurons were thought to be undergoing non-apoptotic atrophic degeneration (Tanemura et al., 2002).
-
Changes in LTP/LTD at 65
In hippocampal slices there was an attenuation of the amplitude of Schaffer collateral evoked hippocampal depolarization (Tanemura et al., 2002).
-
Cognitive Impairment at 48
Behavioral abnormalities measured in 11 month-old mice. They spent more time in the open arms of the elevated plus maze and had greater overall locomoter activity. No differences in the Morris water maze compared with non-transgenic mice, suggesting the transgenic animals retain spatial recognition abilities (Tanemura et al., 2002).
Absent
-
Plaques at
Absent.
No Data
-
Gliosis at
Unknown.
-
Synaptic Loss at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT V337M | MAPT: Transgenic | Alzheimer's Disease, Frontotemporal Dementia | SDS-insoluble tau aggregates in hippocampus. Degenerating neurons in the hippocampus containing phosphorylated and ubiquitinated tau aggregates with β-sheet structure. |
Higher overall spontaneous locomotion than non-transgenic littermates in elevated plus maze. No differences in the Morris water maze. |
Tg12099 rat
Observed
-
Tangles at 26
Neurofibrillary tangles visualized by Bielschowsky silver staining were present in the piriform and entorhinal cortices of terminal Tg12099 rats homozygous for the transgene. Tangles also stained with ThioflavinS. Tangles were absent in hemizygous rats.
-
Neuronal Loss at 39
Pronounced neurodegeneration in the forebrains of Tg12099 homozygotes at terminal stages. Neuronal loss and concordant atrophy of piriform/entorhinal cortices were first observed between 9 and 12 months and continued to worsen with age.
-
Gliosis at 27
Increased GFAP immunoreactivity in the brains of terminal Tg12099 homozygotes compared with aged hemizygotes. Astrogliosis matches the spatiotemporal pattern of tau deposition, becoming apparent in the amygdala and entorhinal cortex as early as 6 to 7 months of age.
Absent
No Data
-
Plaques at
No data.
-
Synaptic Loss at
No data.
-
Changes in LTP/LTD at
No data.
-
Cognitive Impairment at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT P301S | MAPT: Transgenic | Frontotemporal Dementia, Alzheimer's Disease | Tau pathology, including neurofibrillary tangles, forebrain neurodegeneration, and astrogliosis in homozygotes. Hemizygotes exhibit little pathology, save for a few AT8-immunoreactive neurons in the entorhinal cortices of aged animals. |
Ataxia, bradykinesia, and seizures reported in aging homozygotes. |
Tg2576/Tau(P301L) (APPSwe-Tau)
Observed
-
Plaques at 39
Plaques develop gradually with age. No plaques at 5 months. Very few small plaques at 6 and 7 months. By 9 months plaques scattered throughout the cortex, hippocampus and amygdala, continue to increase at 12 months. Similar distribution as Tg2576.
-
Tangles at 13
Neurofibrillary tangles in the spinal cord and pons as early as 3 months, but more consistent and numerous by 6 months. Tangles morphologically similar to those in JNPL3 mice but older bigenic female mice had a marked increase in neurofibrillary tangles in limbic areas by 6 months, especially the olfactory cortex, entorhinal cortex and amygdala (Lewis et al., 2001).
-
Gliosis at 13
Reactive astrocytes and microglia as early as 3 months in the hippocampus as measured by GFAP and CD45. Increased astrocytosis with age especially in limbic areas with the most neurofibrillary tangles. Microglia especially concentrated around plaques at 9 and 12 months (Lewis et al., 2001).
Absent
No Data
-
Synaptic Loss at
Unknown.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
APP, MAPT | APP K670_M671delinsNL (Swedish), MAPT P301L | APP; MAPT: Transgenic | Alzheimer's Disease | Gradual appearance of plaques; by 9 months plaques are scattered throughout the cortex, hippocampus, and amygdala similar to Tg2576. Tau pathology more extensive than JNPL3. Astrocytosis and microgliosis. |
Motor disturbances similar to JNPL3, with identical range in age of onset. Reduced vocalization and decreased grooming. |
THY-Tau22
Observed
-
Tangles at 13
Heterozygous animals develop tau pathology starting at 3-6 months. Pathology becomes more severe and widespread with age. Neurofibrillary tangle-like inclusions occur (Gallyas and MC1+) along with rare ghost tangles and paired helical filament-like structures (Schindowski et al., 2006).
-
Neuronal Loss at 52
Loss of cells in the CA1 region of the hippocampus from 12 months as measured by DAPI staining and Nissl/cresyl-violet (Schindowski et al., 2006). Also, a significant reduction in the number of choline acetyltransferase (ChAT)-immunopositive cholinergic neurons in the medial septum has been reported (Belarbi et al., 2011).
-
Gliosis at 13
Age-dependent increase in the number of GFAP+ astrocytes in the hippocampus (hilus, CA1, CA3), cerebral cortex, corpus callosum (Schindowski et al., 2006).
-
Changes in LTP/LTD at 39
Altered paired pulse facilitation (PPF), a form of presynaptic short-term plasticity in 9-10 month old heterozygous animals: PPF increased at 10 ms. Also at this age, impaired maintenance of long term depression as compared with wild-type littermates (Van der Jeugd et al., 2011). Deficit in basal synaptic transmission in the hippocampus, but normal LTP (Schindowski et al., 2006).
-
Cognitive Impairment at 26
Non-spatial memory affected as early as 6 months; spatial memory impaired only after 9 months (Van der Jeugd et al., 2013). Impaired appetitive responding (Lo et al., 2013).
Absent
-
Plaques at
Absent.
No Data
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT G272V, MAPT P301S | MAPT: Transgenic | Frontotemporal Dementia, Alzheimer's Disease | A variety of tau pathologies starting at 3 months, including neurofibrillary tangle-like inclusions, rare ghost tangles, and paired helical filament-like structures. Hyperphosphorylation of tau on many epitopes (e.g. AT8, AT100, AT180, AT270, 12E8, tau-pSer396, and AP422) and mild astrogliosis. |
Increased anxiety and delayed learning from 3 months, and reduced spatial memory at 10 months. No changes in overall motor activity and no gross motor deficits. Increased depression-like and aggressive behavior, co-occurring with disturbances in nocturnal activity. |
TMHT (Thy-1 mutated human tau)
Observed
-
Tangles at 17
Tangles at 4 months and progress with age.
-
Cognitive Impairment at 22
Cognitive impairment by 5 months as measured by the Morris Water Maze.
Absent
-
Plaques at
Absent.
No Data
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
MAPT | MAPT V337M, MAPT R406W | MAPT: Transgenic | Alzheimer's Disease | Increased total tau, and phosphorylated tau (Thr181, Ser199, Thr231) in amygdala and hippocampus starting at 3 months. |
Spatial memory deficits starting at 5 months (Morris water maze). Olfactory deficits at 5 months (Buried food test). No motor deficits (rota rod, beam walk) or depressive behavior (forced swim test). |
Trem2 KO (Colonna) x PS19
Observed
-
Gliosis at 36
Microgliosis and astrogliosis by 9 months (the earliest age studied).
Absent
No Data
-
Plaques at
No data.
-
Tangles at
No data.
-
Neuronal Loss at
No data.
-
Synaptic Loss at
No data.
-
Changes in LTP/LTD at
No data.
-
Cognitive Impairment at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
Trem2, MAPT | MAPT P301S | Trem2: Knock-Out; MAPT: Transgenic | Frontotemporal Dementia, Alzheimer's Disease | Microgliosis, astrogliosis, and brain atrophy in Trem2-/-PS19 mice are greatly attenuated compared with Trem2+/+PS19 animals. |
No data. |
Trem2 KO (KOMP) x htau
Observed
-
Gliosis at 24
Microgliosis observed by 6 months, younger ages were not studied.
Absent
-
Neuronal Loss at
Neuron loss not observed in cortex or hippocampal field CA3 at 6 months of age; later ages were not studied.
No Data
-
Plaques at
No data.
-
Tangles at
No data.
-
Synaptic Loss at
No data.
-
Changes in LTP/LTD at
No data.
-
Cognitive Impairment at
No data.
Genes | Mutations | Modification | Disease | Neuropathology | Behavior/Cognition |
---|---|---|---|---|---|
Mapt, MAPT, Trem2 | Mapt: Knock-Out; MAPT: Transgenic; Trem2: Knock-Out | Nasu-Hakola Disease, Alzheimer's Disease, Frontotemporal Dementia | Tau phosphorylation and aggregation in the cortex are enhanced in htau mice lacking TREM2, but reactive microglia are smaller and their processes have fewer branches. |
No data. |