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Return exactly one rewritten English science news headline for the original title below. Maximum 12 words. Output plain text only. Do not use HTML, Markdown, quotes, labels, explanations, bullets, numbering, or multiple options. Original title: TDP-43: When microglia go off track

July 8, 2026
in Biology
Reading Time: 4 mins read
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Return exactly one rewritten English science news headline for the original title below. Maximum 12 words. Output plain text only. Do not use HTML, Markdown, quotes, labels, explanations, bullets, numbering, or multiple options. Original title: TDP-43: When microglia go off track

Return exactly one rewritten English science news headline for the original title below. Maximum 12 words. Output plain text only. Do not use HTML, Markdown, quotes, labels, explanations, bullets, numbering, or multiple options. Original title: TDP-43: When microglia go off track

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Mouse brain cells
image: Microglial cells (in red) and myelinated fibers (in cyan) in the developing mouse brain.

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Credit: © Paolicelli Lab, Unil

Rosa Chiara Paolicelli’s team at the Department of Biomedical Sciences of Unil uncovered a new role for the TDP-43 protein in controlling the function of microglia, the immune cells of the brain. Their study shows how the loss of this protein in microglia may contribute to the development of neurological diseases. The findings have been published in Nature Neuroscience.

The biology of microglia lies at the heart of the research conducted by Rosa Chiara Paolicelli’s group, Associate Professor in the Department of Biomedical Sciences at the Faculty of Biology and Medicine of the University of Lausanne (Unil). While microglia are considered the primary defense of the central nervous system, they are also involved in various neurodegenerative diseases. In their latest study, the Lausanne-based team demonstrated how dysfunctional microglia can disrupt brain function and lead to motor deficits. The study was published in the 8 July 2026 issue of Nature Neuroscience.

The Brain’s “Guardians”

Microglia are small cells belonging to the glial cell family that reside in the central nervous system (the brain, spinal cord, and retina). They are the principal immune cells of the brain, often referred to as its “guardians.” In addition to destroying pathogenic foreign agents and fighting infections, they are also responsible for clearing dead cells and other cellular debris.

The Unil neuroscientists, in collaboration with colleagues from several Swiss and international institutions, focused their attention on the protein TDP-43. This protein is known to play a role in several neurodegenerative diseases, including amyotrophic lateral sclerosis (ALS) and certain forms of dementia. In these disorders, TDP-43, which is normally located in the cell nucleus, becomes mislocalized to the cytoplasm, where it forms abnormal aggregates. The progressive loss of the protein from the nucleus, where it normally performs its essential functions, combined with the toxicity of the cytoplasmic aggregates, results in a loss of function and disrupts normal cellular activity. While this phenomenon has been extensively studied in neurons, its impact on microglia remains poorly understood.

“In our study, we sought to better understand what happens when TDP-43 is no longer functional in microglia, using the mouse as an experimental model,” explains Rosa Chiara Paolicelli, who led the research. “To achieve this, we genetically deleted the gene encoding this protein specifically in microglial cells. We observed that mice lacking TDP-43 in their microglia from early life stages developed motor impairments in adulthood.”

Harmful Effects at Multiple Levels

Using a range of imaging techniques, the researchers revealed that TDP-43 dysfunction affects the brain at several levels.

“We detected structural alterations in specific brain regions at early stages of development, as well as abnormalities in myelin, the protective sheath surrounding nerve fibers. We also identified molecular changes suggesting dysfunction in oligodendrocytes, the cells responsible for myelin production,” explains Anne-Claire Compagnion, postdoctoral researcher at the Department of Biomedical Sciences and first author of the study.

Furthermore, the study showed that microglia lacking TDP-43 lose their ability to efficiently resolve myelin abnormalities, which are naturally generated during the myelination process that occurs throughout brain development. This impairment is associated with dysfunction of a major cellular pathway known as the TREM2–DAP12 axis, which is essential for normal microglial function.

“Our findings reveal a previously unrecognized role for TDP-43 in regulating microglial function and demonstrate how its disruption could contribute to the development of neurological diseases”, concludes Rosa Chiara Paolicelli.



Journal

Nature Neuroscience

DOI

10.1038/s41593-026-02348-3

Article Title

Microglial TDP-43 mediates myelin refinement and represses Tyrobp cryptic exon inclusion in mice

Article Publication Date

8-Jul-2026

Media Contact

Géraldine Falbriard

University of Lausanne

medias@unil.ch

Cell: 79 897 30 14

Journal

Nature Neuroscience

DOI

10.1038/s41593-026-02348-3

Article Title

Microglial TDP-43 mediates myelin refinement and represses Tyrobp cryptic exon inclusion in mice

Article Publication Date

8-Jul-2026

bu içeriği 600 ile 800 kelime arasında olacak şekilde ve alt başlıklar ve madde içermiyecek şekilde ünlü bir science magazine için İngilizce olarak yeniden yaz. Teknik açıklamalar içersin ve Viral science news olacak şekilde İngilizce yaz. Haber dışında başka bir şey içermesin. Haber içerisinde 8 ile 10 paragraf olsun ve toplam uzunluk 600 ile 800 kelime arasında kalsın. Cevapta sadece haber olsun. Ayrıca haberi yazdıktan sonra içerikten yararlanarak aşağıdaki başlıkların bilgisi var ise haberin altında doldur. Eğer yoksa bilgisi ilgili kısmı yazma.:
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Keywords

Tags: brain immune cellscentral nervous system immunitymicroglia biology researchmicroglia functionmicroglial dysfunctionmicroglial TDP-43 lossNature Neuroscience studyneurodegenerative disordersneurological disease developmentPaolicelli lab Unilprotein role in neuroinflammationTDP-43 protein
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