Elastin Insufficiency Accelerates Age‐Related Impairment of Renal Hemodynamics

Abstract

Gradual loss of functional elastin fibers during aging leads to increased arterial stiffening and decreased compliance. Elastin insufficiency in mice and humans has been shown to be associated with arteriopathy and the development of hypertension. However, it is unclear whether elastin insufficiency in the resistance vasculature, as occurs in the renal vascular bed, contributes to age‐related decline in renal function. We hypothesized that elastin insufficiency exacerbates age‐related impairment of renal hemodynamics by accelerating functional and structural changes of the renal microvasculature. We assessed renal hemodynamics in anesthetized young (4‐6‐month‐old) and old (14–16‐month‐old) female wild‐type (WT) and elastin heterozygous (Eln+/‐) mice. Renal autoregulation was assessed by a stepwise increase in renal perfusion pressure (RPP) by simultaneously occluding the superior mesenteric and celiac arteries. Autonomic activity was clamped by continuous infusion of a cocktail containing vasoactive hormones. Baseline systolic blood pressure (SBP; 91.1±4.2 vs 90.1±3.1mmHg) and renal vascular resistance (RVR; 13.1±2.4 vs 10.0±1.5 mmHg/μL/min/g left kidney weight) were elevated in old versus young WT mice. Renal blood flow (RBF; 7.3±1.7 vs 9.8±1.4 μL/min/g left kidney weight), renal plasma flow (RPF; 5±1.2 vs 6±1mL/min/g left kidney weight) and glomerular filtration rate (GFR), all trended lower in old WT mice compared to young WT mice. However, in Eln+/‐mice, SBP was lower in old mice (78.2±9.4 vs 104.6±4.9mmHg), while RVR (13.5± 2.6 vs 14.4±1.1), RBF (6.7±1.2 vs 7.5±0.6), RPF (4.2±0.7 vs 4.5±0.3) and GFR were all similar between young and old mice. Increasing RPP caused a robust RVR and RPF response in young vs old WT mice. In contrast, the maximal changes in RBF (5.8±0.6 vs 5.5±1 μL/min/g left kidney weight), RVR (23.8±2.5 vs 21.8±7.0 mmHg/μL/min/g left kidney weight) were less robust and similar between young and old Eln+/‐mice. Autoregulatory index average values were closer to 0 in young and old Eln+/‐and old WT miceindicating greater impairment of renal autoregulation compared to young WT mice. Correlation analysis between pulse pressure and RBF showed that a high pulse pressure was more positively correlated to high RBF in young and old Eln+/‐mice as well as old WT mice. Together, our data demonstrate that elastin insufficiency accelerates age‐related impairment of renal hemodynamics and autoregulation likely mediated by functional and structural remodeling of the renal microvasculature.