Sex-specific modulation of T-type voltage-gated calcium channels in the renal artery of hypertensive rats

Introduction Hypertension contributes to cardiovascular disease, with growing evidence of sex-specific differences in its underlying mechanisms. T-type voltage-gated calcium channels (VGCCs) have emerged as key regulators of vascular tone, particularly under conditions of nitric oxide (NO) deficiency. However, their role in mediating vascular dysfunction across sexes remains poorly understood. Methods This study examined the role of T-type VGCCs and their modulation by NO in the renal artery of male and female spontaneously hypertensive rats (SHR). Vascular reactivity was assessed through phenylephrine-induced contractions in the presence or absence of nickel chloride (NiCl 2 ), a T-type VGCC blocker, and L-NAME, an inhibitor of nitric oxide synthase (NOS). Gene expression of T-type VGCCs (Ca V 3.1 and Ca V 3.2) and eNOS was quantified by RT-PCR. Oxidative stress parameters in leukocytes were assessed by flow cytometry to explore the systemic redox. Results Hypertension induced a rightward shift of the acetylcholine-mediated vasorelaxation curve. In male rats, hypertension did not significantly alter the phenylephrine concentration-response curve. A single data point showed a significant difference following incubation with L-NAME. The contribution of T-type VGCCs to vascular reactivity remained unchanged. Male SHRs displayed increased mRNA expression of Ca V 3.1, Ca V 3.2, and eNOS, yet showed no corresponding increase in T-type VGCC activity or NO availability. Conversely, in female SHR, phenylephrine concentration-response curve showed a leftward shift, reduced NO release, and increased participation of T-type VGCCs in response to phenylephrine. Furthermore, pharmacological inhibition of NO synthesis in female WKY rats, used to simulate hypertensive conditions, enhanced the involvement of T-type VGCCs in phenylephrine-induced vasoconstriction. mRNA expression of eNOS was not modified by hypertension in females. Despite the heightened T-type VGCCs activity, female SHRs had reduced mRNA expression of Ca V 3.1 and Ca V 3.2, suggesting a potential compensatory downregulation. Finally, leukocytes of male SHR exhibited significantly increased production of H 2 O 2 and ONOO − compared to the other studied groups, suggesting that hypertension contributes to a greater oxidative stress in male. Discussion These findings reveal sex-specific differences in the role of T-type VGCCs during hypertension and underscore the therapeutic potential of targeting T-type VGCCs, particularly in females, as a sex-specific strategy for more effective and personalized hypertension management.