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Twin Study Provides Insights into the Development of MS


— October 7, 2024

Research reveals CD8 T cells’ role in early multiple sclerosis development.


Multiple sclerosis (MS) is a complex and chronic condition in which the immune system erroneously targets the central nervous system (CNS). This damages the protective myelin sheath that insulates nerve fibers, leading to communication problems between the brain and the rest of the body. As a result, people with MS may experience a range of often debilitating symptoms that affect vision, motor coordination, sensation, and even cognitive functions. Despite extensive research, the exact causes of MS remain unknown. However, a recent identical twin study has shed new light on the role of CD8-positive T cells in the early stages of the disease.

CD8-positive T cells are a type of immune cell known to target inflamed regions of the brain in MS patients. Until recently, the cells’ specific role in the development of MS was unclear. Specifically, scientists were unsure whether the CD8-positive cells were bystanders in the inflammatory process, or whether they were actively contributing to the disease. They have also been unclear on what drives these immune cells to migrate from the bloodstream into the CNS.

A team of researchers from Ludwig-Maximilians-Universitaet Muenchen (LMU) set out to answer these questions by examining CD8 T cells in monozygotic twins, where one twin has MS and the other does not. Because identical twins share the same genetic makeup and similar environmental exposures, they offer a unique opportunity to study the factors that may trigger MS while controlling for genetic predisposition.

Twin Study Provides Insights into the Development of MS
Photo by Greta Fotografía from Pexels

The team analyzed blood and cerebrospinal fluid (CSF) samples from both affected and unaffected twins. They used advanced techniques such as single-cell RNA sequencing and T cell receptor analysis to scrutinize the CD8 T cells. Ultimately the team found that these immune cells exhibited specific changes in both MS patients and individuals who were asymptomatic but showed early signs of inflammation. The altered CD8 T cells were more migratory and carried markers of inflammation, suggesting that they were on a path to the CNS, potentially contributing to early damage even before symptoms of MS were present.

The study’s findings indicate that these CD8 T cells could be integral in the early stages of MS, possibly helping to start the inflammatory process that damages the myelin sheath. The presence of CD8 T cells in the brain tissue of MS patients further supports their involvement in the disease process. This insight opens up new possibilities for developing treatments that target these specific immune cells early on.

By influencing the behavior of CD8 T cells, researchers hope to slow the progression of MS or even prevent it from developing altogether. The study’s results could lead to new diagnostic methods, enabling earlier detection and intervention, as well.

The identical twin study also provides a rare window into the interaction between genetic and environmental factors in the development of MS. Since the healthy twin has an increased risk of developing the disease, understanding why one twin develops it while the other does not could offer additional insight into how the disease is formed and progresses. Overall, the study stresses the importance of early detection and interventions in MS. While current treatments focus on managing symptoms and slowing progression, targeting CD8 T cells could allow for more proactive measures that halt the disease in its tracks.

Sources:

Identical twins study uncovers insights into multiple sclerosis mechanisms

Twin study identifies early immunological and metabolic dysregulation of CD8+ T cells in multiple sclerosis

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