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Browsing by Author "Nakamura, Fumihiko"
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Item Androgen regulation of pulmonary AR, TMPRSS2 and ACE2 with implications for sex-discordant COVID-19 outcomes(Nature, 2021-05-27) Baratchian, Mehdi; McManus, Jeffrey M.; Berk, Mike P.; Nakamura, Fumihiko; Mukhopadhyay, Sanjay; Xu, Weiling; Erzurum, Serpil; Drazba, Judy; Peterson, John; Klein, Eric A.; Gaston, Benjamin; Sharifi, Nima; Pediatrics, School of MedicineThe sex discordance in COVID-19 outcomes has been widely recognized, with males generally faring worse than females and a potential link to sex steroids. A plausible mechanism is androgen-induced expression of TMPRSS2 and/or ACE2 in pulmonary tissues that may increase susceptibility or severity in males. This hypothesis is the subject of several clinical trials of anti-androgen therapies around the world. Here, we investigated the sex-associated TMPRSS2 and ACE2 expression in human and mouse lungs and interrogated the possibility of pharmacologic modification of their expression with anti-androgens. We found no evidence for increased TMPRSS2 expression in the lungs of males compared to females in humans or mice. Furthermore, in male mice, treatment with the androgen receptor antagonist enzalutamide did not decrease pulmonary TMPRSS2. On the other hand, ACE2 and AR expression was sexually dimorphic and higher in males than females. ACE2 was moderately suppressible with enzalutamide administration. Our work suggests that sex differences in COVID-19 outcomes attributable to viral entry are independent of TMPRSS2. Modest changes in ACE2 could account for some of the sex discordance.Item No evidence that androgen regulation of pulmonary TMPRSS2 explains sex-discordant COVID-19 outcomes(2020-03-21) Baratchian, Mehdi; McManus, Jeffrey; Berk, Mike; Nakamura, Fumihiko; Erzurum, Serpil; Mukhopadhyay, Sanjay; Drazba, Judy; Peterson, John; Gaston, Ben; Sharifi, Nima; Pediatrics, School of MedicineAbstract
The recent emergence of SARS-CoV-2 and the subsequent COVID-19 pandemic have posed a public health crisis. Higher morbidity and mortality of men with COVID-19 may be explained by androgen-driven mechanisms. One such proposed mechanism is androgen regulation of pulmonary TMPRSS2, the host co-receptor for SARS-CoV-2. We find no evidence for increased TMPRSS2 mRNA expression in the lungs of males compared to females in humans or mice. Furthermore, in male mice, treatment with the androgen receptor antagonist enzalutamide does not decrease pulmonary TMPRSS2 expression. Nevertheless, regardless of sex, smoking significantly increases the expression of TMPRSS2, which reverts back to never-smoker levels in former smokers. Finally, we show that in mouse models, despite equivalent AR transcript levels, males express markedly higher amounts of AR protein. If a similar sex-specific regulation of AR protein occurs in human lung, androgens could play important roles in clinical outcome of COVID-19 through mechanisms other than TMPRSS2 regulation.
Item Sex, androgens and regulation of pulmonary AR, TMPRSS2 and ACE2(Cold Spring Harbor Laboratory, 2020-10-14) Baratchian, Mehdi; McManus, Jeffrey M.; Berk, Mike; Nakamura, Fumihiko; Mukhopadhyay, Sanjay; Xu, Weiling; Erzurum, Serpil; Drazba, Judy; Peterson, John; Klein, Eric A.; Gaston, Ben; Sharifi, Nima; Pediatrics, School of MedicineThe sex discordance in COVID-19 outcomes has been widely recognized, with males generally faring worse than females and a potential link to sex steroids. A plausible mechanism is androgen-induced expression of TMPRSS2 and/or ACE2 in pulmonary tissues that may increase susceptibility or severity in males. This hypothesis is the subject of several clinical trials of anti-androgen therapies around the world. Here, we investigated the sex-associated TMPRSS2 and ACE2 expression in human and mouse lungs and interrogated the possibility of pharmacologic modification of their expression with anti-androgens. We found no evidence for increased TMPRSS2 expression in the lungs of males compared to females in humans or mice. Furthermore, in male mice, treatment with the androgen receptor antagonist enzalutamide did not decrease pulmonary TMPRSS2. On the other hand, ACE2 and AR expression was sexually dimorphic and higher in males than females. ACE2 was moderately suppressible with enzalutamide therapy. Our work suggests that sex differences in COVID-19 outcomes attributable to viral entry are independent of TMPRSS2. Modest changes in ACE2 could account for some of the sex discordance.