GGrantIndex
← Search

Homeostasis and Tubuloglomerular Feedback

$0I01FY2014VAVA

Va San Diego Healthcare System, San Diego CA

Investigators

Linked publications & trials

Abstract

Chronic kidney disease (CKD) is the precursor to most end-stage renal failure and is a potent risk factor for cardiovascular disease. Recent interest in CKD has focused on processes of structural change that occur later in the course of CKD when functioning kidney is replaced by scar tissue. We ascribe to the view that these processes begin as adaptive mechanisms, rooted in physiology, to compensate for an earlier injury, then go awry because the means to control them is lost. It is the general purpose of the proposed research to investigate cardinal features of kidney physiology early in the course of CKD by applying renal micropuncture methods in a standard model for early CKD, namely subtotal nephrectomy (STN) in the rat. We have discovered that feeding high NaCl diet to a rat during the first week after STN leads to a reversal of the tubuloglomerular feedback (TGF) response from negative to positive gain. While this will speed up the return to salt balance, it also signifies that the kidney is willing to forego the functional and hemodynamic stability normally conferred by TGF. This shift to anomalous TGF establishes a positive relationship between dietary salt intake and dynamic stretch-relaxation of the glomerular capillary wall, which may explain the nefarious effect of dietary salt in CKD. The upcoming research will determine whether this physiology remains relevant beyond the early stages of adaptation to nephron loss, whether it is a durable process that persists after high NaCl is withdrawn, whether it depends on Na, Cl, or both, and how it interacts with kidney metabolism.

View original record on NIH RePORTER →