A single nucleotide mutation in the mouse renin promoter disrupts blood pressure regulation
Keiji Tanimoto, … , Kazuyuki Yanai, Akiyoshi Fukamizu
Keiji Tanimoto, … , Kazuyuki Yanai, Akiyoshi Fukamizu
Published February 7, 2008
Citation Information: J Clin Invest. 2008;118(3):1006-1016. https://doi.org/10.1172/JCI33824.
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Research Article Nephrology

A single nucleotide mutation in the mouse renin promoter disrupts blood pressure regulation

Abstract

Renin, a major regulatory component of the renin-angiotensin system, plays a pivotal role in regulating blood pressure and electrolyte homeostasis and is predominantly expressed in the kidney. Several cAMP-responsive elements have been identified within renin gene promoters. Here, we study how 2 such elements, renin proximal promoter element-2 (RP-2) and overlapping cAMP and negative regulatory elements (CNRE), affect the transcriptional regulation of renin. We generated Tg mice (TgM) bearing BACs containing either WT or mutant RP-2 or CNRE, integrated at single chromosomal loci. Analysis of the TgM revealed that RP-2 was essential to basal promoter activity in the kidney, while renin mRNA levels did not significantly change in any tissues tested in the CNRE mutant TgM. To evaluate the physiological significance of these mutations, we used the BAC Tg to rescue hypotensive Renin-null mutant mice. As predicted, no renin expression was observed in the kidneys of RP-2 mutant/Renin-null compound mice, whereas renin expression in CNRE mutant compound mice was indistinguishable from that in control mice. Consistent with this, RP-2 mutant animals were hypotensive, while CNRE mutants had normal blood pressure. Thus, transcriptional regulation of renin expression via RP-2 but not CNRE is critical for blood pressure regulation by this gene.

Authors

Keiji Tanimoto, Akiko Sugiura, Sumiyo Kanafusa, Tomoko Saito, Naoto Masui, Kazuyuki Yanai, Akiyoshi Fukamizu

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Figure 3

Renin expression in TgM.

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Renin expression in TgM. (A–D) Kidneys were isolated from 8-week-old Ren...
(AD) Kidneys were isolated from 8-week-old Ren-1C BAC TgM (4 males [M] and 4 females [F] for each genotype [WT and mut] in lines 546, 525, 399, and 1224), and the RNA was analyzed. (A and C) Each value represents the ratio of Tg Ren-1C (Tg) expression to that of endogenous Ren-2 and Ren-1D (endo.), which served as an internal control. Relative Tg/endo. values for each individual are shown after normalization to the average value of the WT group, which was arbitrarily set at 100. Each sample was analyzed at least 3 times, and the means ± SD are shown only for lines 546 and 399. ND, not detected. (B and D) The means ± SD of each group in A and C are summarized. Results are shown also for lines 525 and 1224. P values were determined by 2-tailed Student’s t test. (EG) RNA was isolated from various tissues of non-Tg (E), CNRE Tg (F), and RP-2 Tg (G) animals (8-week-old). Endogenous Ren-1C, Tg Ren-1C (Tg), and Gapdh gene expression was analyzed. Lines in F indicate that lanes were run on the same gel but were noncontiguous. (H) The SMG was isolated from Ren-1C TgM (8-week-old), and Tg Ren-1C (Tg), endogenous Ren-2 and Ren-1D (endo.), and Gapdh gene expression was analyzed. Below, the relative renin/GAPDH value for each individual mouse was calculated for both Tg and endogenous (endo.) renin genes and normalized to the average value of the WT male group, arbitrarily set at 100. Values are mean ± SD.