Abstract

Hypertension afflicts 33% of the U.S. adult population. Despite current treatments, approximately 50% of people are unresponsive to treatment. There is a critical need to develop new therapies to treat this disease and its complications. The Renin Angiotensin Aldosterone System plays a key role in regulating blood pressure in humans. Renin controls the rate-limiting step in the conversion of angiotensinogen to angiotensin I. In adults, renin is produced and stored by Juxtaglomerular (JG) cells in the kidney. However, the transcriptional mechanisms that govern formation of renin expressing cells under normal or pathophysiological conditions remain poorly understood. During blood pressure changes the number of adult renal cells expressing renin increase through a process known as JG cell expansion. We found that this process involves differentiation of mesenchymal stromal-like cells (MSC) to renin expressing cells among others. We aim to determine new regulators of renin expression and blood pressure control. Renin expression in vitro was induced by treatment of MSCs with 3-isobutyl-1-methylxanthine (IBMX) and Forskolin. MSCs were transduced with lentivirus carrying vectors Sox6 shRNA or control shRNA. A new transgenic mouse, in which Sox6 is deleted specifically in renin expressing cells (Ren1dCre/Sox6 fl/fl ), was used to study the impact of Sox6 in renin expression in vivo . Gene array comparing renal MSC and JG cells identified potential genes that control MSC differentiation, including Sox6. In vitro silencing of Sox6 by shRNA decreased differentiation of renal MSCs into renin producing cells (3.5 fold, n=4, P= 0.01). Preliminary IHC data showed that the transcription factor Sox6 is expressed by renin producing cells in the adult kidney during JG cell expansion. Plasma renin concentration (PRC) increased during JG cell expansion (induced with low sodium diet and furosemide) in wild type mice (27-fold), whereas in mice lacking Sox6 in JG cells PRC was as low as non-treated mice. We conclude that Sox6 has a novel role in modulating renin expression and thereby can contribute to renal physiology, opening new possibilities of addressing questions regarding physiological regulation of renin and hypertension.

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