Testosterone explains why women more prone to asthma
The Walter and Eliza Hall Institute of Medical Research News May 27, 2017
An international research team has revealed for the first time that testosterone protects males against developing asthma, helping to explain why females are two times more likely to develop asthma than males after puberty.
The study showed that testosterone suppresses the production of a type of immune cell that triggers allergic asthma. The finding may lead to new, more targeted asthma treatments.
Dr Cyril Seillet and Professor Gabrielle Belz from MelbourneÂs Walter and Eliza Hall Institute, with Dr Jean–Charles Guéry and his team at the Physiopathology Center of Toulouse–Purpan, France, led the study, published in the Journal of Experimental Medicine.
Dr Seillet said hormones were speculated to play a significant role in the incidence and severity of asthma in women. ÂThere is a very interesting clinical observation that women are more affected and develop more severe asthma than men, and so we tried to understand why this was happening, Dr Seillet said.
ÂOur research shows that high levels of testosterone in males protect them against the development of allergic asthma. We identified that testosterone is a potent inhibitor of innate lymphoid cells, a newly–described immune cell that has been associated with the initiation of asthma.Â
The research team found that innate lymphoid cells  or ILC2s  Âsensed testosterone and responded by halting production of the cells.
ÂTestosterone directly acts on ILC2s by inhibiting their proliferation, Dr Seillet said. ÂSo in males, you have less ILC2s in the lungs and this directly correlates with the reduced severity of asthma.Â
ILC2s are found in the lungs, skin and other organs. These cells produce inflammatory proteins that can cause lung inflammation and damage in response to common triggers for allergic asthma, such as pollen, dust mites, cigarette smoke and pet hair.
Professor Belz said understanding the mechanism that drives the sex differences in allergic asthma could lead to new treatments for the disease.
ÂCurrent treatments for severe asthma, such as steroids, are very broad based and can have significant side effects, Professor Belz said.
ÂThis discovery provides us with a potential new way of treating asthma, by targeting the cells that are directly contributing to the development of allergic asthma. While more research needs to be done, it does open up the possibility of mimicking this hormonal regulation of ILC2 populations as a way of treating or preventing asthma. Similar tactics for targeting hormonal pathways have successfully been used for treating other diseases, such as breast cancer.Â
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The study showed that testosterone suppresses the production of a type of immune cell that triggers allergic asthma. The finding may lead to new, more targeted asthma treatments.
Dr Cyril Seillet and Professor Gabrielle Belz from MelbourneÂs Walter and Eliza Hall Institute, with Dr Jean–Charles Guéry and his team at the Physiopathology Center of Toulouse–Purpan, France, led the study, published in the Journal of Experimental Medicine.
Dr Seillet said hormones were speculated to play a significant role in the incidence and severity of asthma in women. ÂThere is a very interesting clinical observation that women are more affected and develop more severe asthma than men, and so we tried to understand why this was happening, Dr Seillet said.
ÂOur research shows that high levels of testosterone in males protect them against the development of allergic asthma. We identified that testosterone is a potent inhibitor of innate lymphoid cells, a newly–described immune cell that has been associated with the initiation of asthma.Â
The research team found that innate lymphoid cells  or ILC2s  Âsensed testosterone and responded by halting production of the cells.
ÂTestosterone directly acts on ILC2s by inhibiting their proliferation, Dr Seillet said. ÂSo in males, you have less ILC2s in the lungs and this directly correlates with the reduced severity of asthma.Â
ILC2s are found in the lungs, skin and other organs. These cells produce inflammatory proteins that can cause lung inflammation and damage in response to common triggers for allergic asthma, such as pollen, dust mites, cigarette smoke and pet hair.
Professor Belz said understanding the mechanism that drives the sex differences in allergic asthma could lead to new treatments for the disease.
ÂCurrent treatments for severe asthma, such as steroids, are very broad based and can have significant side effects, Professor Belz said.
ÂThis discovery provides us with a potential new way of treating asthma, by targeting the cells that are directly contributing to the development of allergic asthma. While more research needs to be done, it does open up the possibility of mimicking this hormonal regulation of ILC2 populations as a way of treating or preventing asthma. Similar tactics for targeting hormonal pathways have successfully been used for treating other diseases, such as breast cancer.Â
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