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New Research Sheds Light on Why Women Are More Prone to Autoimmune Diseases

New Research Reveals the Role of X Chromosome in Autoimmune Diseases

Autoimmune diseases, a group of disorders in which the immune system mistakenly attacks the body’s own cells, affect millions of people worldwide. These diseases, including lupus, rheumatoid arthritis, and multiple sclerosis, are known to disproportionately affect women, with about 80% of patients being female. For decades, scientists have been puzzled by this gender bias, but new research from Stanford University may finally provide some answers.

The study, published in the journal Cell, focuses on the role of the X chromosome in autoimmune diseases. Females have two X chromosomes, while males have one X and one Y chromosome. The researchers discovered that the extra X chromosome in females plays a significant role in the development of autoimmune diseases.

Normally, each cell in the female body must switch off one of its X chromosomes to avoid an overdose of genes. This process, known as X-chromosome inactivation, is regulated by a special type of RNA called Xist. The researchers found that Xist attracts proteins that bind to it and silences the extra X chromosome. However, in some cases, this process goes awry.

Dr. Howard Chang, a dermatologist at Stanford University, and his team identified nearly 100 proteins that are involved in X-chromosome inactivation. Many of these proteins are related to skin-related autoimmune disorders. This led the researchers to hypothesize that Xist could somehow organize proteins in a way that activates the immune system.

To test this hypothesis, the researchers engineered male lab mice to produce Xist without silencing their only X chromosome. They also bred mice susceptible to a lupus-like condition. The mice that produced Xist developed lupus-like autoimmunity at levels similar to females when triggered.

This finding suggests that Xist alone is not sufficient to cause autoimmune disease. It likely requires a combination of genetic susceptibility and an environmental trigger, such as an infection or injury. For example, the Epstein-Barr virus has been linked to multiple sclerosis.

In addition to studying mice, the researchers also examined blood samples from 100 patients. They discovered autoantibodies targeting Xist-associated proteins that were not previously linked to autoimmune disorders. This suggests that standard tests for autoimmunity, which were developed using male cells, may not be comprehensive enough.

While more research is needed, these findings have the potential to revolutionize the diagnosis and treatment of autoimmune diseases. By understanding the role of Xist and its associated proteins, doctors may be able to identify specific disease patterns in patients. This could lead to more accurate diagnoses and personalized treatment plans.

Dr. E. John Wherry, an immunologist at the University of Pennsylvania, believes that this research provides a significant piece of the puzzle in understanding autoimmune diseases. He suggests that it may even be possible to interrupt the process of RNA to abnormal cells in the future.

Overall, this study sheds light on the underlying mechanisms of autoimmune diseases and offers hope for improved detection and treatment options. With further research, scientists may be able to develop targeted therapies that specifically address the role of the X chromosome in these disorders.

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