4.6 Article

Th17 cell-linked mechanisms mediate vascular dysfunction induced by testosterone in a mouse model of gender-affirming hormone therapy

出版社

AMER PHYSIOLOGICAL SOC
DOI: 10.1152/ajpheart.00182.2022

关键词

T cells; testosterone; Th17; transgender; vascular dysfunction

资金

  1. Fundacao de Amparo a Pesquisa do Estado de Sao Paulo [CRID 2013/08216-2]
  2. Coordenacao de Aperfeicoamento de Pessoal de Nivel Superior (CAPES)
  3. Conselho Nacional de Desenvolvimento Cientifico e Tecnologico (CNPq), Brazil
  4. CNPq [140198/2017-2]

向作者/读者索取更多资源

This study found that testosterone can cause cardiovascular dysfunction in females by enhancing Th17 cell-related mechanisms, leading to increased blood pressure. Furthermore, changes in immune-cell balance may play a crucial role in gender-affirming hormone therapy (GAHT) in transmasculine individuals.
Clinical data point to adverse cardiovascular events elicited by testosterone replacement therapy. Testosterone is the main hormone used in gender-affirming hormone therapy (GAHT) by transmasculine people. However, the cardiovascular impact of testosterone in experimental models of GAHT remains unknown. Sex hormones modulate T-cell activation, and immune mechanisms contribute to cardiovascular risk. The present study evaluated whether testosterone negatively impacts female cardiovascular function by enhancing Th17 cell-linked effector mechanisms. Female (8 wk old) C57BL/6J mice received testosterone (48 mg/kg/wk) for 8 wk. Male mice were used for phenotypical comparisons. The hormone treatment in female mice increased circulating testosterone to levels observed in male mice. Testosterone increased lean body mass and body mass index, and decreased perigonadal fat mass, mimicking clinical findings. After 8 wk, testosterone decreased endothelium-dependent vasodilation and increased peripheral Th17 cells. After 24 wk, testosterone increased blood pressure in female mice. Ovariectomy did not intensify phenotypical or cardiovascular effects by testosterone. Female mice lacking T and B cells [Rag1 knockout ((-/-))], as well as female mice lacking IL-17 receptor (IL-17Ra(-/-)), did not exhibit vascular dysfunction induced by testosterone. Testosterone impaired endothelium-dependent vasodilation in female mice lacking gamma delta T cells, similarly to the observed in wildtype female mice. Adoptive transfer of CD4(+) T cells restored testosterone-induced vascular dysfunction in Rag1(-/-) female mice. Together, these data suggest that CD4(+) T cells, most likely Th17 cells, are central to vascular dysfunction induced by testosterone in female mice, indicating that changes in immune-cell balance are important in the GAHT in transmasculine people. NEW & NOTEWORTHY Sex hormone-induced cardiovascular events are important undesirable effects in transgender people under GAHT. Studies addressing the cardiovascular impact of GAHT will certainly contribute to improve healthcare services offered to this population. Our study showing that vascular dysfunction, via Th17 cell-related mechanisms, precedes increased blood pressure induced by testosterone in a GAHT mouse model, reveals potential mechanisms involved in GAHT-related cardiovascular events and may provide new markers/targets for clinical practices in transmasculine people.

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