Estradiol, a type of estrogen, enhances the levels and activity in mice
of an enzyme that drives life-threatening allergic reactions, according
to researchers from the National Institute of Allergy and Infectious
Diseases (NIAID), part of the National Institutes of Health (NIH). The
study results may help explain why women frequently experience more
severe allergic reactions compared to men. Furthermore, the results
reaffirm the importance of accounting for gender in the design of animal
experiments.
Anaphylaxis is an allergic reaction triggered by food, medication or
insect stings and bites. Immune cells, particularly mast cells, release
enzymes that cause tissues to swell and blood vessels to widen. As a
result, skin may flush or develop a rash, and in extreme cases,
breathing difficulties, shock or heart attack may occur. Clinical
studies have shown that women tend to experience anaphylaxis more
frequently than men, but why this difference exists is unclear.
In the current study, NIAID researchers found that female mice experience more severe and longer lasting anaphylactic reactions than males. Instead of targeting immune cells, estrogen influences blood vessels, enhancing the levels and activity of endothelial nitric oxide synthase (eNOS), an enzyme that causes some of the symptoms of anaphylaxis. When the researchers blocked eNOS activity, the gender disparity disappeared. In addition, giving estrogen-blocking treatments to female mice reduced the severity of their allergic responses to a level similar to those seen in males.
While the study has identified a clear role for estrogen and eNOS in driving severe anaphylactic reactions in female mice, more work is needed to see if the effects are similar in people and may be applied toward future preventive therapies.
In the current study, NIAID researchers found that female mice experience more severe and longer lasting anaphylactic reactions than males. Instead of targeting immune cells, estrogen influences blood vessels, enhancing the levels and activity of endothelial nitric oxide synthase (eNOS), an enzyme that causes some of the symptoms of anaphylaxis. When the researchers blocked eNOS activity, the gender disparity disappeared. In addition, giving estrogen-blocking treatments to female mice reduced the severity of their allergic responses to a level similar to those seen in males.
While the study has identified a clear role for estrogen and eNOS in driving severe anaphylactic reactions in female mice, more work is needed to see if the effects are similar in people and may be applied toward future preventive therapies.
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