Abstract MP42: T Cell Deletion Normalizes Sex Differences Of Blood Pressure But Not Renal Damage In Dahl Salt-sensitive Rats

Abstract

The immune system has a clear role in the development of hypertension and renal damage in male Dahl salt-sensitive (SS) rats, but far less is known about this phenotype in females, especially in regard to the contribution of immune-related mechanisms. The current study examined the hypertensive and kidney injury phenotype in response to a 3 week high salt challenge (HS, 4.0% NaCl, AIN-76A) in female versus male SS rats (n>10/group). Measured via radiotelemetry, there was no difference in low salt (LS, 0.4% NaCl) mean arterial pressure (MAP) between females and males (129±2 vs 124±2 mmHg, respectively). However, after 3 weeks of HS, females had a significant attenuation in the development of hypertension compared to males (161±3 vs 177±7 mmHg). This coincided with significantly less renal damage, evident by markedly reduced albuminuria (105±16 vs 183±16 mg/day) and medullary protein cast formation (7.0±0.7 vs 14.6±1.1%) in the females. Assessed via flow cytometry, there were fewer CD45+ total leukocytes (48% reduction), CD3+ T cells (51%), CD45R+ B cells (73%), and CD11b/c+ monocytes/macrophages (47%) in female versus male kidneys. To interrogate the contribution of adaptive immunity, specifically T cells, to the development of this sex difference, the same parameters were investigated in female and male SS CD247-/- rats which lack CD3+ T cells. The absence of functional T cells significantly reduced blood pressure in both females (147±6 vs 161±3 mmHg; SS CD247-/- vs SS) and males (157±8 vs 177±7 mmHg) after 3 weeks of HS, with no statistical difference between female and male SS CD247-/- rats. While a reduction in albuminuria (females: 37±12 vs 105±16 mg/day; males: 88±13 vs 183±16 mg/day, SS CD247-/- vs SS) and medullary protein cast formation (females: 1.8±0.4 vs 7.0±0.7%; males: 9.1±0.7 vs 14.6±1.1%) was observed in SS CD247-/- versus SS rats regardless of sex, there was greater protection from these measures of kidney damage in SS CD247-/- female versus SS CD247-/- males. Together, our data indicate that female SS rats are significantly protected from high salt-induced hypertension and renal disease compared to males rats. The deletion of T cells normalized high salt blood pressure between male and female rats but sex differences in renal damage still persisted.