Intact NOX2 in T Cells Mediates Pregnancy-Induced Renal Damage in Dahl SS Rats

BACKGROUND: Hypertensive disorders of pregnancy are associated with increased risk for cardiovascular disease, renal disease, and mortality. While the exact mechanisms remain unclear, T cells and reactive oxygen species have been implicated in its pathogenesis. We utilized Dahl salt-sensitive (SS), SSCD247-/- (Dahl SS CD247 knockout rat; lacking T cells), and SSp67phox-/- (Dahl SS p67phox [NOX2 (NADPH [nitcotinamide adenine dinucleotide phosphate] oxidase 2)] knockout rat; lacking NOX2) rats to investigate these mechanisms in primigravida and multigravida states. METHODS: We assessed blood pressure and renal damage phenotypes in SS, SSCD247-/-, and SSp67phox-/- rats during primigravida and multigravida states. To investigate the contribution of NOX2 in T cells, we performed adoptive transfers of splenocytes or cluster of differentiation (CD)4+ T cells from either SS or SSp67phox-/- donors into SSCD247-/- recipients to determine pregnancy-specific alterations in phenotype. RESULTS: Multigravida SS rats developed significant pregnancy-induced renal damage and renal functional impairment associated with elevated maternal mortality rates, whereas deletion of T cells or NOX2 garnered protection. During primigravida states, this attenuation in renal damage was observed, with the greatest protection in the SSp67phox-/- rat. To demonstrate that NOX2 in T cells contributes to adverse pregnancy phenotypes, adoptive transfer of SS splenocytes into SSCD247-/- rats resulted in significant pregnancy-induced renal damage, whereas transfer of SSp67phox-/- splenocytes garnered protection. Specifically, the transfer of SS CD4+ T cells resulted in pregnancy-induced proteinuria and increases in uterine artery resistance index, an effect not seen with the transfer of SSp67phox-/- CD4+ T cells. CONCLUSIONS: T cells and NOX2-derived reactive oxygen species, thus, contribute to end-organ damage in both primigravida and multigravida pregnancies in the SS rat leading to increases in maternal mortality.