The Kidney Androgen-regulated Protein Promoter Confers Renal Proximal Tubule Cell-specific and Highly Androgen-responsive Expression on the Human Angiotensinogen Gene in Transgenic Mice

Ding, Yueming; Davisson, Robin L.; Hardy, Dianne O.; Zhu, Lian; Merrill, David; Catterall, James F.; Sigmund, Curt D.

doi:10.1074/jbc.272.44.28142

Cited by 138 publications

(137 citation statements)

References 36 publications

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“…However, our liver Agt KO study revealed that the Agt protein synthesized from the renal Agt mRNA is too low to be appreciated by either immunostaining or Western blot analysis. However, kidney Ag KO led to a decrease in urinary Agt protein, suggesting that most Agt protein synthesized in the S3 segment is immediately secreted into the urine; thus, our findings support the notion previously offered in the work by Ding et al 25 Our study also showed that, whereas disruption of kidney Agt gene has no effect on renal AII content, disruption of liver Agt gene markedly reduces renal AII. In fact, although liver Agt KO led to a moderate increase in renal Agt mRNA in a compensatory fashion, the increase was not translated into an increase in renal AII content.…”

Section: Discussionsupporting

confidence: 82%

Liver Angiotensinogen Is the Primary Source of Renal Angiotensin II

Matsusaka

Niimura

Shimizu

et al. 2012

Journal of the American Society of Nephrology

228

290

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Angiotensin II content in the kidney is much higher than in the plasma, and it increases more in kidney diseases through an uncertain mechanism. Because the kidney abundantly expresses angiotensinogen mRNA, transcriptional dysregulation of angiotensinogen within the kidney is one potential cause of increased renal angiotensin II in the setting of disease. Here, we observed that kidney-specific angiotensinogen knockout mice had levels of renal angiotensinogen protein and angiotensin II that were similar to those levels of control mice. In contrast, liver-specific knockout of angiotensinogen nearly abolished plasma and renal angiotensinogen protein and renal tissue angiotensin II. Immunohistochemical analysis in mosaic proximal tubules of megalin knockout mice revealed that angiotensinogen protein was incorporated selectively in megalin-intact cells of the proximal tubule, indicating that the proximal tubule reabsorbs filtered angiotensinogen through megalin. Disruption of the filtration barrier in a transgenic mouse model of podocyte-selective injury increased renal angiotensin II content and markedly increased both tubular and urinary angiotensinogen protein without an increase in renal renin activity, supporting the dependency of renal angiotensin II generation on filtered angiotensinogen. Taken together, these data suggest that liverderived angiotensinogen is the primary source of renal angiotensinogen protein and angiotensin II. Furthermore, an abnormal increase in the permeability of the glomerular capillary wall to angiotensinogen, which characterizes proteinuric kidney diseases, enhances the synthesis of renal angiotensin II. CKDs are often progressive and involve cardiovascular diseases. Pharmacological intervention of angiotensin II (AII) is the only currently available therapeutic clinical measure with proven effectiveness in protecting the kidney from progressive loss of renal function in CKD. However, in these conditions, circulating AII is typically not elevated. Of note, AII content in renal tissues is markedly higher than content in the circulation, and it is regulated in a manner distinct from circulating AII. 1-3 These findings have formed the currently prevailing notion that the kidney in and of itself is furnished with a full set of components necessary for de novo AII synthesis. In support of this notion, studies have shown that renal AII is elevated in hypertension and

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Section: Discussionsupporting

confidence: 82%

Liver Angiotensinogen Is the Primary Source of Renal Angiotensin II

Matsusaka

Niimura

Shimizu

et al. 2012

Journal of the American Society of Nephrology

228

290

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“…In situ hybridization demonstrated that expression of hAGT mRNA in males and testosterone-treated females was restricted to proximal tubule epithelial cells in the renal cortex. Although there was no detectable hAGT protein in plasma, it was shown in the urine, consistent with a pathway of synthesis in proximal tubule cells and release into the tubular lumen [75]. Mouse angiotensinogen and hAGT have a similar structure; however, mouse renin is species-specific and cannot cleave hAGT [77].…”

Section: Angiotensinogenmentioning

confidence: 99%

“…Sigmund and colleagues [74][75][76] developed a series of interesting models of inducible hypertension. Transgenic mice were generated in which a fragment of the kidney-specific androgen-regulated protein (KAP) promoter was fused to the human angiotensinogen (hAGT) gene.…”

Section: Angiotensinogenmentioning

confidence: 99%

Renal Renin-Angiotensin System

Ichihara

Kobori

Nishiyama

et al. 2004

Contributions to Nephrology

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The cardinal role of the intrarenal renin-angiotensin system (RAS) in the control of sodium excretion and the pathophysiology of hypertension continues to receive increased attention. In addition to its very powerful vasoconstrictor action, angiotensin (Ang) II exerts important actions on tubular transport function and several recent studies have emphasized the potential importance of actions of angiotensin peptides on receptors localized to the luminal membranes of both proximal and distal nephron segments. Furthermore, a strong case is being developed supporting the importance of local mechanisms regulating the activity of the RAS. This is due to the fact that all components of the RAS are strongly expressed in the kidneys.

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“…The specimens were then immediately centrifuged at 12,000 rpm for 2 min at 2°C, and a 50-l plasma sample was obtained and immediately frozen at Ϫ80°C. Plasma samples were treated as described previously (18,31). Radioimmunoassays were then performed using the RIANEN angiotensin I 125 I-labeled radioimmunoassay kit (Dupont) using the directions and reagents supplied by the manufacturer.…”

Section: Generation Of Transgenic Mice-mentioning

confidence: 99%

Efficient Liver-specific Deletion of a Floxed Human Angiotensinogen Transgene by Adenoviral Delivery of Cre Recombinasein Vivo

Stec¹,

Davisson²,

Haskell

et al. 1999

Journal of Biological Chemistry

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Tissue-specific ablation of gene function is possible in vivo by the Cre-loxP recombinase system. We generated transgenic mice containing a human angiotensinogen gene flanked by loxP sites (hAGT flox ). To examine the physiologic consequences of tissue-specific loss of angiotensinogen gene function in vivo, we constructed an adenovirus expressing Cre recombinase. Studies were performed in several independent lines of hAGT flox mice before and after intravenous administration of either Adcre or Ad␤Gal as a control. Systemic administration of Adcre caused a significant decrease in circulating human angiotensinogen and markedly blunted the pressor response to administration of purified recombinant human renin. Southern blot analysis of genomic DNA from various organs revealed that the Cre-mediated deletion was liver-specific. Further analysis revealed the absence of full-length human angiotensinogen mRNA and protein in the liver but not the kidney of Adcre mice, consistent with the liver being the target for adenoviruses administered intravenously. These studies demonstrate that extra-hepatic sources of angiotensinogen do not contribute significantly to the circulating pool of angiotensinogen and provide proof-of-principle that the Cre-loxP system can be used effectively to examine the contribution of the systemic and tissue reninangiotensin system to normal and pathological regulation of blood pressure.

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The Kidney Androgen-regulated Protein Promoter Confers Renal Proximal Tubule Cell-specific and Highly Androgen-responsive Expression on the Human Angiotensinogen Gene in Transgenic Mice

Cited by 138 publications

References 36 publications

Liver Angiotensinogen Is the Primary Source of Renal Angiotensin II

Liver Angiotensinogen Is the Primary Source of Renal Angiotensin II

Renal Renin-Angiotensin System

Efficient Liver-specific Deletion of a Floxed Human Angiotensinogen Transgene by Adenoviral Delivery of Cre Recombinasein Vivo

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