19 Dec 2023

Because frontotemporal dementia is a rare disease, it has not gotten nearly the attention or research dollars of its big cousin, Alzheimer’s. As a result, progress in the field has lagged behind, particularly with regard to biomarkers. Philanthropist Kristin Holloway, whose husband, Lee, got a diagnosis of FTD at the age of 36, is trying to change that by funding an annual meeting to convene leaders in the field and discuss areas of need. Organized by the Association for Frontotemporal Degeneration, the first such meeting last year focused on digital biomarkers (Jun 2022 conference news). The second Holloway Summit, held November 30 to December 1 in Miami, turned the spotlight on biomarkers, of both the fluid and imaging kind.

Biomarkers are challenging in FTD because the disease is more heterogeneous than AD, with several different underlying pathologies. About 40 percent of patients accumulate tau fibrils, nearly half TDP-43 deposits, and the remainder have a variety of other proteinopathies, such as TMEM106B or indeed even TAF15 (Dec 2023 news). Over the two-day Holloway summit, some 50 academic and pharmaceutical scientists assessed the state of the field on biomarkers specific for pathologic tau and TDP-43, and also brainstormed ways to accelerate discovery. The conference was a discussion and networking opportunity more than an occasion for showing unpublished data.

Participants said the discussions would spur their own research. Arthur Simen of Takeda was intrigued by the potential use of FTD biomarkers in trials, noting, “This meeting has given me reason to be hopeful.” Henrik Zetterberg of Gothenburg University, Sweden, said that biomarkers that reflect core molecular features of FTD pathologies look promising. “This bodes well for the future,” he told Alzforum.

Mix and Match. FTD clinical syndromes (top)—such as behavioral variant FTD, semantic variant primary progressive aphasia, non-fluent variant PPA, FTD-motor neuron disease, corticobasal syndrome, and progressive supranuclear palsy-Richardon’s syndrome—can be caused by numerous underlying pathologies (bottom), including variants of tau, TDP-43, FUS, and UPS. [Courtesy of Grossman et al., Nature Reviews.]

Is It Tau or TDP-43?
Potential disease-modifying therapies are being developed for different forms of FTD. To recruit the right patients into trials, researchers need a quick way to determine what type of pathology the person in front of them has. About 40 percent of FTD patients have a family history of the disease, and specific mutations do correlate with particular deposits—C9ORF expansions and GRN mutations with TDP-43, MAPT mutations with tau. Alas, for sporadic cases, there is currently no way to tell what deposits are present. Complicating matters, tau fibrils can consist of either three- or four-repeat isoforms. Both 3R tauopathies such as Pick’s disease, and 4R ones such as progressive supranuclear palsy and corticobasal degeneration, fall under the FTD umbrella, and people with behavioral variant FTD can have either type of tau (see image above).

In the last year, new studies have proposed fluid biomarkers for both tau and TDP-43 deposits. In Miami, Chihiro Sato, Washington University St. Louis, presented her work on two mid-domain tau phosphorylations, MTBR-275 and -282. Their concentration is elevated in the parenchyma, and decreased in the cerebrospinal fluid, of people with 4R tauopathies, much like Aβ42 in the Alzheimer’s disease brain. The CSF markers are particularly low in CBD, notching an AUC of 0.83 for distinguishing this disorder from other dementias, including from other 4R tauopathies (Dec 2022 news). Sato said she next will validate this assay in real-world clinical populations. She would also like to correlate the biomarker with tau PET, and move the assay to blood.

Meanwhile, Leonard Petrucelli at the Mayo Clinic in Jacksonville, Florida, and Philip Wong at Johns Hopkins University School of Medicine, Baltimore, discussed the presence of aberrant cryptic peptides in certain proteins as a potential new TDP-43 biomarker. TDP-43 prevents such splicing errors, so when TDP-43 exits the nucleus and deposits in the cytosol, more cryptic peptides arise. Some cryptic peptide-containing proteins, such as HDGFL2 and MYO18A, can indeed be detected in CSF (Feb 2023 news). In Miami, Wong added data from postmortem brains of ALS patients and C9ORF mutation carriers, showing that when neurons in motor cortex and hippocampus lose nuclear TDP-43, cryptic HDGFL2 appears.

CSF assays for cryptic HDGFL2 have now been done in 161 C9ORF72 expansion carriers, up from the previous 46, and continue to show good discrimination from controls, Wong said. In the 83 presymptomatic carriers tested so far, levels were about twice as high as in 66 controls, while in the 78 symptomatic carriers, they were three times as high.

The biomarker also works in sporadic disease, where 44 people with ALS notched levels double those of controls. Petrucelli noted that researchers are currently optimizing assays for both cryptic HDGFL2 and MYO18A in preparation for further testing and validation. Ideally, clinicians would prefer plasma assays to CSF. Wong said this might be possible, as the plasma signal for cryptic HDGFL2 correlates well with the CSF signal, at r=0.79.

Other potential candidates to detect TDP-43 pathology in fluids are specific for certain mutations, such as progranulin in GRN mutation carriers, and dipeptide repeat proteins in C9ORF expansion carriers. Scientists are exploring additional biomarkers. In Miami, Giacomo Salvadore of Alector introduced some of these, noting that symptomatic GRN mutation carriers have elevated lysosomal proteins, such as cathepsin D and LAMP1, and complement proteins such as C1q and C3b. At the moment, these markers can only be reliably measured in CSF, limiting their use.

Scott Small of Columbia University in New York noted that many FTD and ALS genes relate to late endosomal function, whereas Alzheimer’s genes tend to be found in the early endosome, and Parkinson’s genes in the lysosome. For example, C9ORF72 expansions block maturation of the early endosome, and CHMP2b is part of the endosomal sorting complex that helps recycle receptors. TMEM106B, which helps transport late endosomes, can form fibrils in FTD brain (Apr 2022 news).

Powering Discovery Efforts
In addition, the summit highlighted efforts to better validate existing analytes in body fluids. Consider neurofilament light. NfL is one of the most useful biomarkers for FTD. Though nonspecific, it rises in the CSF before symptoms appear, and tracks with clinical progression (Jun 2016 news; Sep 2016 conference news; Mar 2021 conference news).

Clinician-researchers would much prefer to measure NfL in blood rather than CSF, but NFL measurements there are notoriously variable. ALLFTD, the North American observational study of FTD mutation carriers, has started the Neurofilament Surveillance Project, in which nurses will visit the homes of about 335 mutation carriers every three months for three years to draw blood. These quarterly measurements will be compared with annual NfL draws done in a doctor’s office, as well as with numerous other health factors, to try to pin down sources of variability. The idea is to help ready plasma NfL as a biomarker for trials.

Like NfL, the inflammation marker GFAP is not disease-specific, rising in all symptomatic FTD cases and in other neurodegenerative diseases. On the up side, it too can be measured in blood. Numerous talks in Miami debated possible applications for these nonspecific markers. For example, a GFAP/NfL ratio would be higher in AD than FTD and might help distinguish the two diseases, noted David Irwin at the University of Pennsylvania, Philadelphia. However, in general these markers are more useful for tracking disease progression and severity than for diagnosis.

How about new markers? One such effort is the BEYONDD study led by Adam Boxer and Gil Rabinovici at the University of California San Francisco, as well as Desiree Byrd at CUNY Queens College and Monica Rivera-Mindt at Fordham University, New York City. The goal is to recruit more black and Latino people under 65 who develop dementia. Early onset cases are more likely to be FTD than AD, which tends to happen later in life. Participants can complete questionnaires and neuropsychology tests online, and have blood draws done at home. This may turn up plasma markers with broad applicability in real-world populations.

Similarly, Yolande Pijnenburg at VU University Medical Center is establishing a young-onset dementia cohort in the Netherlands. People can register at any point in their disease for the study, which will offer education and support, and will invite participants to donate blood samples. Recruitment will start in early 2024.

Meanwhile, Charlotte Teunissen at Amsterdam UMC is analyzing CSF protein panels to find markers that discriminate between FTD-tau and -TDP. So far, the project has identified panels that identify FTD from controls with AUC=0.96, and from AD patients with AUC=0.91, Teunissen said via video conference. Alas, an initial 10-protein panel that distinguished tau and TDP cases did not replicate.

Another marker of interest is acetylated tau, which has been linked to 3R tauopathies and AD (Sep 2015 news; Oct 2023 news). Because this marker is higher in FTD than AD, a CSF p-tau217/acetylated-tau ratio might discriminate the two diseases, Teunissen suggested. The hunt continues.

For data on imaging biomarkers, see Part 2 of this series.—Madolyn Bowman Rogers

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References

News Citations

1. Digital Biomarkers of FTD: How to Move from Tech Tinkering to Trials? 28 Jun 2022
2. Sought FUS, Found TAF—A New Fibril in Frontotemporal Dementia 14 Dec 2023
3. Finally, a Biomarker to Distinguish Primary Tauopathies? 1 Dec 2022
4. Can ‘Cryptic Peptides’ Peg People with TDP-43 Pathology? 3 Feb 2023
5. Surprise! TMEM106b Fibrils Found in Neurodegenerative Diseases 12 Apr 2022
6. Blood NfL Looks Good as Progression and Outcome Marker 9 Jun 2016
7. Fluid NfL Shines, Tau PET Dims, in the Hunt for FTD Biomarkers 29 Sep 2016
8. FTD Fluid Markers for Degeneration: Check. For Pathology: Not Yet. 16 Mar 2021
9. New Type of Toxic Tau? Acetylated Form Correlates With Memory Defects 25 Sep 2015
10. Acetylation Accelerates Aggregation of 3R, but Not 4R, Tau 6 Oct 2023
11. At Holloway Summit, FTD Imaging Shows New Vista 19 Dec 2023

External Citations

1. Neurofilament Surveillance Project
2. BEYONDD

Further Reading

News

1. In ALS and FTD, Two Different Routes to TDP-43 Aggregation 9 Sep 2020
2. Defining Biomarker Curves, Progression Models for Familial FTD 13 Oct 2022
3. Neuronal Pentraxin 2 Binds Complement Protein, Protects Synapses 31 Mar 2023
4. FTD Trials: The Now and the Future 24 Mar 2021
5. Pumping Up Progranulin: Scientists Show New Efforts to Get It Done 7 Apr 2023
6. WANTED: Biomarkers for Drug Trials in Frontotemporal Dementia 25 Apr 2016
7. Acetylated Tau Mucks Up Memories 1 Apr 2016