The contribution of sex hormones to cardiovascular disease, including arterial stiffness, is established
however, the role of sex chromosome interaction with sex hormones, particularly in women, is lagging. Arterial stiffness depends on the intrinsic properties and transmural wall geometry that comprise a network of cells and extracellular matrix (ECM) proteins expressed in a sex-dependent manner. In this study, we used four-core genotype (FCG) mice to determine the relative contribution of sex hormones versus sex chromosomes or their interaction with arterial stiffness. Gonadal intact FCG mice included females (F) and males (M) with either XX or XY sex chromosomes (