High-salt diet augments systolic blood pressure and induces arterial dysfunction in outbred, genetically diverse mice.

Excess salt consumption contributes to hypertension and arterial dysfunction in humans living in industrialized societies. However, this arterial phenotype is not typically observed in inbred, genetically identical mouse strains that consume a high-salt (HS) diet. Therefore, we sought to determine the effects of HS diet consumption on systolic blood pressure (BP) and arterial function in UM-HET3 mice, an outbred, genetically diverse strain of mice. Male and female UM-HET3 mice underwent a low-salt [LS (1% NaCl)] or HS (4% NaCl) diet for 12 wk. Systolic BP and aortic stiffness, determined by pulse wave velocity (PWV), were increased in HS after 2 and 4 wk, respectively, compared with baseline and continued to increase through ( < 0.05). Systolic BP was higher from and PWV was higher from in HS compared with LS mice ( < 0.05). Aortic collagen content was ∼81% higher in HS compared with LS ( < 0.05), whereas aortic elastin content was similar between groups ( > 0.05). Carotid artery endothelium-dependent dilation (EDD) was ∼10% lower in HS compared with LS ( < 0.05), endothelium-independent dilation was similar between groups ( > 0.05). Finally, there was a strong relationship between systolic BP and PWV ( = 0.40, < 0.05), as well as inverse relationship between EDD and systolic BP ( = 0.21, < 0.05) or PWV ( = 0.20, < 0.05). In summary, HS diet consumption in UM-HET3 mice increases systolic BP, which is accompanied by aortic stiffening and impaired EDD. These data suggest that outbred, genetically diverse mice may provide unique translational insight into arterial adaptations of humans that consume an HS diet. Excess salt consumption is a contributor to hypertension and arterial dysfunction in humans living in industrialized societies, but this phenotype is not observed in inbred, genetically identical mice that consume a high-salt (HS) diet. This study reveals that a HS diet in outbred, genetically diverse mice progressively increases systolic blood pressure and induce arterial dysfunction. These data suggest that genetically diverse mice may provide translational insight into arterial adaptations in humans that consume an HS diet.