Mechanisms underlying sex differences in autoimmunity
DeLisa Fairweather, Danielle J. Beetler, Elizabeth J. McCabe, Scott M. Lieberman
DeLisa Fairweather, Danielle J. Beetler, Elizabeth J. McCabe, Scott M. Lieberman
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Review Series

Mechanisms underlying sex differences in autoimmunity

Abstract

Autoimmune diseases are a leading cause of disability worldwide. Most autoimmune diseases occur more often in women than men, with rheumatic autoimmune diseases being among those most highly expressed in women. Several key factors, identified mainly in animal models and cell culture experiments, are important in increasing autoimmune disease in females. These include sex hormones, immune genes including those found on the X chromosome, sex-specific epigenetic effects on genes by estrogen and the environment, and regulation of genes and messenger RNA by microRNAs found in extracellular vesicles. Evidence is also emerging that viruses as well as drugs or toxins that damage mitochondria may contribute to increased levels of autoantibodies against nuclear and mitochondrial antigens, which are common in many autoimmune diseases. The purpose of this Review is to summarize our current understanding of mechanisms that may determine sex differences in autoimmune disease.

Authors

DeLisa Fairweather, Danielle J. Beetler, Elizabeth J. McCabe, Scott M. Lieberman

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Figure 1

Mechanisms contributing to the development of autoimmune disease.

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Mechanisms contributing to the development of autoimmune disease. A comb...
A combination of genetic predisposition (Genes) and environmental factors (Environment) contributes to the development of autoimmune diseases. Genetic factors (red) include genes on the X chromosome that are not inactivated, such as FOXP3, which may lead to dysregulation of Tregs in females. HLA type is another example of a genetic factor that can increase susceptibility to developing an autoimmune disease. Environmental factors (blue) include chemicals and infections. Some genetic factors can be influenced by environmental factors (purple); for example, the autoimmune regulator gene (AIRE) can be decreased by viral infections or endocrine-disrupting chemicals may alter sex hormone signaling.