Background: Transgender women are individuals born male but identify as female. Many transgender women undergo gender-affirming hormone therapy to alleviate the distress that can occur due to gender incongruence. For transgender women, gender-affirming hormone therapy includes 17β-estradiol (E2) combined with an antiandrogen therapy (AA) or surgical intervention. Numerous studies suggest that the risk of cardiovascular disease is elevated in transgender women; yet, the biological effects of gender-affirming hormone therapy on cardiovascular health are unknown. We hypothesize that a shift in the hormonal milieu versus natal sex in the male rat is associated with an increase in blood pressure at baseline and an enhanced responsiveness to a hypertensive challenge.
Methods: We developed clinically relevant models that mimic gender-affirming hormone therapy combination therapies utilized for the endocrine treatment of gender dysphoria in transgender women.
Results: Chronic E2 plus castration or the E2+antiandrogen spironolactone was associated with a significant reduction in lean mass and testosterone. At baseline, 24-hour mean arterial pressure did not differ in E2+castration or E2+antiandrogen therapy versus control, but circadian rhythm was disrupted. In response to chronic Ang II (angiotensin II; 200 ng/kg per minute), the Ang II-induced increase in blood pressure was attenuated in E2+castration compared with control, but the blood pressure response to Ang II was similar in E2+antiandrogen therapy versus control.
Conclusions: Thus, these data indicate that the type of combination therapy utilized may exert differential effects on blood pressure and that disruption of circadian rhythm may be a contributory factor to the increased risk of adverse cardiovascular outcomes in transgender women exposed to high 17β-estradiol coupled to androgen suppression.
Keywords: blood pressure; circadian rhythm; estrogen; male; rats; testosterone; transgender persons.