AbstractPiezo are mechanosensitive non‐selective cation channels that are suggested to be involved in vascular development and function. The aim of our study was to determine any sex‐specific contributions of the mechanosensitive Piezo 1 channels on blood vessel wall stiffness. Composite Young modulus (CYM) was determined using pressure myograph experimental approach using third‐order mesenteric arteries (intact and denuded) from Dahl salt‐sensitive male and female normotensive and hypertensive rats (n = 6–8). The effects of Piezo 1 agonist (Yoda 1; 10 μM), and antagonist (GsMTx‐4; 2 μM) were studied in intact and denuded vessels. The distribution of Piezo 1 was identified using immunohistochemistry. In intact blood vessels, there were no differences in CYM between the experimental groups, however, removal of the endothelium unmasked significant increases in CYM in normotensive males and female groups compared to hypertensive males. The presence of Yoda 1 did not affect CYM in any groups. In the intact tissues, GsMTx‐4 led to significant increases in CYM in hypertensive females, and normotensive males and females, but not in hypertensive males. In the denuded vessels, GsMTx‐4, produced a significant increase in CYM but only in the female normotensives. Differential expression of Piezo 1 were found in male versus female blood vessels. Our findings support a greater contribution of Piezo 1 mechanoceptors to vascular biomechanics of male hypertensive compared to male normotensive or female groups. The evidence also points to a possible differential vasoregulatory role for Piezo 1 in endothelial versus vascular smooth cells, with a greater contribution in males than females.