Abstract
Taurine is abundant in seminal plasma and is involved in redox balance, osmoregulation, and sperm membrane stability. However, its role in protecting dairy goat bucks against heat stress-associated declines in sperm quality remains unclear. In this study, eighteen Guanzhong dairy goat bucks were assigned to three groups: control (NC), field heat stress (HS), and HS with taurine supplementation (HS + Tau). Heat stress reduced seminal plasma taurine abundance and was associated with metabolic reprogramming, impaired sperm quality, disturbed redox homeostasis, and decreased LH and testosterone levels. Specifically, HS reduced sperm motility, viability, membrane integrity, and kinematic performance, increased sperm abnormalities, and shortened in vitro sperm survival time. Taurine supplementation alleviated these adverse changes and shifted the seminal plasma metabolome toward a more homeostatic profile. Metabolomic analysis indicated that HS was associated with the accumulation of long-chain acylcarnitines in seminal plasma. Complementary mouse and TM4 Sertoli cell experiments provided preliminary mechanistic support, suggesting that taurine may partially protect Sertoli cell tight-junction proteins, particularly ZO-1, under heat- and acylcarnitine-related stress, and may be associated with the modulation of p38/AKT signaling. Collectively, these findings suggest that taurine alleviates heat stress-induced declines in sperm quality in dairy goat bucks, at least in part, by modulating seminal plasma metabolism.