Skip to main content
Magdeburg Laborszenen 18 5 22 1080 strichcode 2048x854px

News categories: Publication

Blood Markers Detect Rare Forms of Dementia

Research with data from Germany and Spain opens up new options for diagnosis.

In a study with 991 adults, scientists at DZNE show that the most common forms of frontotemporal dementia (FTD) as well as the neurological diseases amyotrophic lateral sclerosis (ALS) and progressive supranuclear palsy (PSP) can be recognised by blood testing. Their procedure is not yet ready for routine medical use, but in the long term it could facilitate disease diagnosis and advance the development of new therapies already now. The findings published in the journal “Nature Medicine” are based on the measurement of certain proteins in the blood, which serve as biomarkers. The study also involved the University Hospital Bonn (UKB) and other research institutions in Germany and Spain. 

FTD, ALS and PSP form a spectrum of neurodegenerative diseases with overlapping symptoms characterised by dementia, behavioral symptoms, paralysis and muscle wasting, movement impairment and other serious impairments. In Germany, it is estimated that up to 60,000 people are affected by one of these diseases. Although they are relatively rare, their consequences for health are nevertheless severe. “As yet, there is no cure for any of these diseases. And, with current methods, it is not possible to reach a conclusive diagnosis of the molecular pathology of these diseases during a patient’s lifetime, since brain tissue must be examined,” explains Prof. Anja Schneider, a research group leader at DZNE and Director of the Department of Old Age Psychiatry and Cognitive Disorders at UKB. 

Diagnostic markers 

“However, a diagnosis of the underlying pathology is required for the development of therapies and for stratifying patients according to their disease. Only such stratification allows targeted and therefore potentially effective disease-modifying treatments to be tested,” continues Schneider, who is also affiliated with the University of Bonn. “We now show that PSP, behavioral variant of FTD and the vast majority of ALS cases with the exception of a particular mutation can be recognised by blood testing and this also applies to their underlying pathology. Our study is the first to find pathology specific biomarkers. Initially, application is likely to be in research and therapy development. But in the long term, I consider it realistic that these biomarkers will also be used for diagnosis in medical routine. However, further studies are required for this. In fact, it would be particularly important to determine how these biomarkers develop longitudinally, that is, over the course of a disease, and how early they rise in the disease course.” 

Detection of proteins 

The new blood test, which is based on the measurement of so-called tau and TDP43 proteins, could provide decisive evidence for diagnosis. There is a particularly strong need for the “behavioural variant of FTD” which was investigated here. This is because the symptoms of this most common type of FTD can be due to two PRESS RELEASE Deutsches Zentrum für Neurodegenerative Erkrankungen Blood Markers Detect Rare Forms of Dementia as well as the Neurological Diseases ALS and PSP Media Relations Dr. Marcus Neitzert Communications Phone: +49 228 43302-267 Mail: marcus.neitzert@dzne.de 2/3 different pathologies – i.e. abnormal processes – in the brain, which can generally only be differentiated by analysing tissue after death. Only in those few cases where the disease is genetic can DNA analysis provide certainty during a patient’s lifetime. The blood test now enables a precise diagnosis to be made during a patient’s lifetime, even if there is no mutation. This, in turn, is a prerequisite for testing new therapies against these various FTD pathologies in clinical trials. 

Abnormal aggregates 

“It is well known that tau and TDP-43 proteins play key roles in FTD, ALS and PSP, as they form abnormal aggregates in the brain in these diseases. The events differ between the diseases, however. Our investigations suggest that blood levels of the proteins reflect these disease processes,” says Schneider. “We have found that the combination of both markers is required for the diagnosis of behavioural FTD, respectively its subtypes, whereas TDP-43 is sufficient for ALS and the tau protein for PSP. However, for the tau marker, we are actually looking at two specific variants, so called isoforms, of the tau protein.” 

Tiny bubbles of lipids 

The method employs a special twist: This is because the proteins are not measured directly in the blood plasma. Such measurements turned out to be inconclusive, especially because tau proteins free-floating in blood are usually fragmented. Instead, Schneider and colleagues determined the levels of two forms of tau proteins and those of TDP-43 proteins found inside so-called vesicles. These are tiny bubbles of lipids that are secreted by cells of the body and that can ultimately enter the bloodstream. Through multi-stage preparation, which included centrifugation of the blood samples, the researchers were able to capture the proteins contained in vesicles. 

Collaborative research 

The results are based on data and blood samples from study collectives in Germany and Spain with a total of 991 adults. They were affected by FTD, ALS, PSP or belonged to a control group with healthy individuals. This situation with independent groups of volunteers allowed the findings to be extensively validated. On the one hand, this involved the so-called DESCRIBE cohorts: As part of these research initiatives, DZNE, along with several German university hospitals, is compiling data and biosamples from people with neurodegenerative diseases. This ensemble comprised more than 700 patients. From the Spanish side, the “Sant Pau” cohort, which is run by the “Hospital de la Santa Creu i Sant Pau” in Barcelona, joined the project with over 200 participants. “With these relatively rare diseases, you have to work across sites and institutes in order to be able to include as many study participants as possible and thus reach statistically robust results,” explains Schneider. “Such undertakings are an integral part of the strategy of DZNE, for which we have established structures and procedures over the years. This is complex to do, but it pays off. Our study is a good example of collaboration in medical research – within Germany and beyond.”

Publication:

Plasma extracellular vesicle Tau and TDP-43 as diagnostic biomarkers in FTD and ALS

 Chatterjee, Özdemir et al.

Nature Medicine (2024), DOI: 10.1038/s41591-024-02937-4; URL: https://www.nature.com/articles/s41591-024-02937-4.

Contact:

Prof. Dr. Anja Schneider

Department of Cognitive Disorders and Old Age Psychiatry 

Mail: anja.schneider@ukbonn.de

Press contact:

Dr. Marcus Neitzert 

Communications at DZNE

Phone: +49 228 43302-267 

Mail: marcus.neitzert@dzne.de

Related news

Showing how the genes relevant to diseases can be identified more easily - (clockwise from top left): Alexander Hoch, Katja Blumenstock, Marius Jentzsch, Caroline Fandrey und Prof. Jonathan Schmid-Burgk.

News categories: Publication

Colored nuclei reveal cellular key genes

The identification of genes involved in diseases is one of the major challenges of biomedical research. Researchers at the University of Bonn and the University Hospital Bonn (UKB) have developed a method that makes their identification much easier and faster: they light up genome sequences in the cell nucleus. In contrast to complex screenings using established methods, the NIS-Seq method can be used to investigate the genetic determinants of almost any biological process in human cells. The study has now been published in Nature Biotechnology.
View entry
News Florian Schmidt 09 2024

News categories: Publication

Central mechanism of inflammation decoded

The formation of pores by a particular protein, gasdermin D, plays a key role in inflammatory reactions. During its activation, an inhibitory part is split off. More than 30 of the remaining protein fragments then combine to form large pores in the cell membrane, which allow the release of inflammatory messengers. As methods for studying these processes in living cells have so far been inadequate, the sequence of oligomerization, pore formation and membrane incorporation has remained unclear until now.
View entry
Larvae of the fruit fly Drosophila (foreground) - have a kind of stretch sensor in the esophagus (grey structure in the middle). It reports swallowing processes to the brain. If food is ingested, special neurons of the enteric nervous system (red) release serotonin.

News categories: Publication

Swallowing triggers a feeling of elation

Researchers at the University of Bonn and the University of Cambridge have identified an important control circuit involved in the eating process. The study has revealed that fly larvae have special sensors, or receptors, in their esophagus that are triggered as soon as the animal swallows something. If the larva has swallowed food, they tell the brain to release serotonin. This messenger substance ensures that the larva continues to eat. The researchers assume that humans also have a very similar control circuit. The results were recently published in the journal “Current Biology.”
View entry

Back to the news overview