Cardiometabolic Health in Transgender Males

Overview

Transgender individuals are those with a gender identity opposite the sex they were assigned at birth. Approximately 1% of the population is transgender, equating to \~60,000 transgender Wisconsinites. A transgender boy or man is someone with a 46,XX karyotype and typical female genitalia but a male gender identity and desire for more male-typical gender expression. Gender-affirming testosterone (hormonal) treatment (GAHT) is the cornerstone of masculinizing therapy for transgender men and boys, resulting in estrogen (E2) suppression and circulating testosterone (T) levels equivalent to cisgender males. Historically, GAHT was initiated after an E2-driven puberty, but the last decade has seen an explosion of referrals for GAHT in transboys, many of whom are exposed to only low E2 levels before puberty is halted with blocker therapy. Knowledge of risks incurred by GAHT rely on low-quality studies, precluding conclusive assessment of GAHT's long-term impact on cardiometabolic outcomes. Data on transboys receiving GAHT before completion of E2-driven puberty are sparser and no studies have addressed mechanisms by which GAHT may affect vascular physiology. The investigators aim to determine the cardiometabolic impact of GAHT in transboys/men and to determine if any differences identified are mechanistically dependent on the timing of GAHT relative to puberty.

Gender-affirming testosterone (hormonal) treatment (GAHT) is the cornerstone of masculinizing therapy for transgender men, resulting in circulating testosterone (T) levels equivalent to cismen and estrogen (E2) suppression. Historically, GAHT was initiated after an E2-driven puberty, but the last decade has seen an explosion of referrals for GAHT in transboys, many of whom are exposed to only low E2 levels before puberty is halted with blocker therapy. Knowledge of risks incurred by GAHT rely on low quality studies, precluding conclusive assessment of GAHT's long-term impact on cardiometabolic outcomes. Data on transboys receiving GAHT before completion of E2-driven puberty are sparser and no studies have addressed mechanisms by which GAHT may affect vascular physiology. The investigators aim to determine the cardiometabolic impact of GAHT in transboys/men and to determine if any differences identified are mechanistically dependent on the timing of GAHT relative to puberty. The vaso-protective benefits of E2 are well-described; higher circulating E2 begins in female puberty, stimulating a long-term increase in the vascular expression of the E2 receptor's alpha isoform (ERα). ERα activation directly stimulates nitric oxide (NO) production from endothelium-derived NO synthase and is critical to maintaining a healthy vascular endothelium. Pre-menopausal women have an increased capacity to produce endothelial NO due to higher E2 levels and vascular ERα expression, resulting in lower cardiovascular disease risk vs age-matched cismen. These data suggest a novel paradigm for the impact of GAHT on vascular health in transmen that differs depending on when GAHT is initiated relative to puberty. The investigators hypothesize that, in transmen who have completed E2-driven puberty, GAHT will induce a regression of vascular endothelial function towards that of cismen by suppressing circulating E2 and ERα expression and that similar regression will not be seen in transboys initiating GAHT prior to pubertal progression. The investigators propose, to our knowledge, a first-of-its-kind longitudinal study of the cardiometabolic impact of 1-year of GAHT in 40 transboys and transmen as compared to cisgender controls with endogenous sex hormones. The impact of GAHT initiation and continuation in transboys/men on in vivo and ex vivo vascular endothelial function, estrogen-stimulated endothelial vasorelaxation, and expression of vascular ERα expression will be determined by measuring changes in conduit vessel endothelium-dependent vasodilation and vascular E2 receptor expression and responsiveness in transboys on puberty blockers and in transmen. The investigators will also determine whether GAHT suppresses the human arteriolar vascular expression of ERα receptors and reduces E2-stimulated endothelial vasorelaxation in transboys/men relative to ciswomen. Secondarily, The investigators will characterize the metabolic, body composition and inflammatory impact of GAHT. This study will provide a novel mechanistic framework for the cardiometabolic impact of GAHT and make available critical information for care providers and patients on how GAHT may affect their cardiovascular risk.