Testosterone Deficiency Promotes Arterial Stiffening Independent of Sex Chromosome Complement

Author:

Sakamuri Anil1,Visniauskas Bruna2,Kilanowski-Doroh Isabella2,McNally Alexandra2,Imulinde-Sugi Ariane2,Kamau Anne1,Sengottaian Divya1,McLachlan John2,Anguera Montserrat3,Mauvais-Jarvis Franck2,Lindsey Sarah2,Ogola Benard Ojwang1ORCID

Affiliation:

1. Augusta University Medical College of Georgia

2. Tulane University School of Medicine

3. Penn Vet: University of Pennsylvania School of Veterinary Medicine

Abstract

Abstract Background Testosterone plays a vital role in men’s health. Lower testosterone level is associated with cardiovascular and cardiometabolic diseases, including inflammation, atherosclerosis, and type 2 diabetes. Testosterone replacement is beneficial or neutral to men’s cardiovascular health. Testosterone deficiency is associated with cardiovascular events. Testosterone supplementation to hypogonadal men improves libido, increases muscle strength, and enhances mood. We hypothesized that sex chromosomes (XX and XY) interaction with testosterone plays a role in arterial stiffening.Methods We used four core genotype male mice to understand the inherent contribution of sex hormones and sex chromosome complement in arterial stiffening. Age-matched mice were either gonadal intact or castrated for eight weeks, followed by an assessment of blood pressure, pulse wave velocity, echocardiography, and ex vivo passive vascular mechanics.Results Arterial stiffening but not blood pressure was more significant in castrated than testes-intact mice independent of sex chromosome complement. Castrated mice showed a leftward shift in stress-strain curves and carotid wall thinning. Sex chromosome complement (XX) in the absence of testosterone increased collagen deposition in the aorta and Kdm6a gene expression.Conclusion Testosterone deprivation increases arterial stiffening and vascular wall remodeling. Castration increases Col1α1 in male mice with XX sex chromosome complement. Our study shows decreased aortic contractile genes in castrated mice with XX than XY sex chromosomes.

Publisher

Research Square Platform LLC

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