Abstract
Previous studies suggest that risk factors for cardiovascular diseases (CVD) have increased in the transgender population after they undergo cross‐sex hormone therapy (CSHT). Several studies, including ours in animal models as well as in humans, have shown that estrogen exerts direct beneficial effects on the vessel wall in healthy females. A growing body of evidence also suggests that androgen exhibits protective actions on the cardiovascular system. However, the effects of CSHT in cardiovascular physiology in males or females are less understood.The current study was, therefore, undertaken to evaluate the effects of estrogen treatment on aortic reactivity in castrated (CAS) male rats. Specifically, we investigated the effects of in vivo treatment with 17β‐estradiol (E2) on the aortic responses of CAS male as well as ovariectomized (OVX) female rats.Age‐matched CAS male and OVX female rats were implanted subcutaneously with either 17β‐estradiol (E2,1.5 mg) or a placebo‐containing pellet for 30 days. Endothelium‐dependent vasorelaxation (EDV) in response to acetylcholine (ACh, 10‐8 to 10‐5 M) in aorta precontracted with phenylephrine (PE, 2 µM) was measured before and after pretreatment with indomethacin (10 µM, cyclooxygenase inhibitor), followed by N‐nitro‐ L‐arginine methyl ester [L‐NAME, 200 µM, a nonselective nitric oxide synthase (NOS) inhibitor]. Endothelium‐independent vasorelaxation was assessed by measuring sodium nitroprusside (SNP)‐induced relaxation response in endothelium‐denuded rings in addition to the contractile response curves to PE before and after pretreatment with L‐NAME in aortic rings.EDV to ACh was significantly impaired in aortic rings from E2‐treated CAS rats compared to their placebo‐treated counterparts and E2‐treated OVX rats. The impairment of EDV to ACh in E2‐treated CAS rats was accompanied by a significant decrease in nitric oxide (NO) contribution to ACh‐induced relaxation in this group. The smooth muscle sensitivity to NO as measured by SNP relaxation response curve was not altered, whereas the responsiveness to PE was slightly enhanced in the aortas of E2‐treated CAS group compared to those in other experimental groups. Endothelium‐derived NO release during smooth muscle contraction, as assessed by the potentiation of the response to PE after NOS inhibition, was not different in the aortas of experimental groups.Overall, our data demonstrate that aortic function was altered in E2‐treated CAS male rats. Here, we provide the first evidence of impairment in aortic relaxation in E2‐treated CAS male rats, possibly via a significant decrease in the relative contribution of NO to the regulation of vascular relaxation response. Furthermore, the comparison of current data in the CAS male rats with our recently published data on the aortic reactivity in the intact males appears to rule out any effect of testosterone deprivation on the stimulated release of NO in male rat aortas. Additional studies will be needed to document the direction and magnitude of CSHT interaction with vasculatures.
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