Scientists link Epstein-Barr virus to multiple sclerosis mechanisms

A large-scale study reveals that about one in ten people carry genetic variants making them more vulnerable to severe effects from the Epstein-Barr virus, which infects over 90 percent of the population. These variants are linked to higher viral persistence and increased risks of autoimmune diseases like multiple sclerosis and lupus. The findings, based on over 735,000 genomes, suggest pathways for targeted treatments and vaccines.

January 06, 2026 Ti AI ṣe iroyin

Researchers at the University of California, Riverside, have identified how inflammation in multiple sclerosis disrupts mitochondrial function in the brain, leading to the loss of key neurons that control balance and coordination. Published in the Proceedings of the National Academy of Sciences, the findings highlight a potential pathway for new treatments to preserve mobility in the 2.3 million people affected by the disease worldwide. The study examined human brain tissue and a mouse model to trace these energy failures over time.

Scientists have discovered that the body's rapid response in nasal cells largely determines whether a rhinovirus infection leads to a mild cold or more severe symptoms. Using lab-grown human nasal tissue, researchers showed how interferons coordinate defenses to contain the virus early. The findings, published January 19 in Cell Press Blue, emphasize the role of host responses over viral traits alone.

January 07, 2026 Ti AI ṣe iroyin

Scientists have reconstructed ancient genomes of human herpesviruses HHV-6A and HHV-6B from over 2,000-year-old European remains, proving these viruses have coexisted with humans for at least 2,500 years. The study reveals that some individuals inherited the viruses directly in their DNA, passed down through generations. One strain, HHV-6A, appears to have lost its ability to integrate into human chromosomes over time.

Scientists at Cedars-Sinai Medical Center report that a subset of astrocytes located away from a spinal cord injury can help drive repair in mice by releasing the protein CCN1, which alters microglia metabolism to improve cleanup of lipid-rich nerve debris. The work, published in Nature, also found evidence of a similar CCN1-linked response in human spinal cord tissue from people with multiple sclerosis.

February 06, 2026 Ti AI ṣe iroyin Ti ṣayẹwo fun ododo

Researchers at Memorial Sloan Kettering Cancer Center report that colorectal tumors can contain two major subtypes of regulatory T cells with opposing effects—one associated with restraining tumor growth and another linked to suppressing anti-tumor immunity. The work, published in Immunity, helps explain why higher overall levels of these immune cells have been tied to better outcomes in colorectal cancer and suggests a potential strategy for more selective Treg-targeted therapies.