Renin and angiotensinogen gene expression in maturing rat kidney

Gómez, R. Ariel; Lynch, Kevin R.; Chevalier, Robert L.; Wilfong, N; Everett, Allen D.; Carey, Robert M.; Peach, Michael J.

doi:10.1152/ajprenal.1988.254.4.f582

Cited by 82 publications

(67 citation statements)

References 15 publications

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“…Our understanding of the RAS in normal and pathophysiological regulation of blood pressure has been complicated by the fact that in addition to its actions as an endocrine system, certain individual tissues, such as the kidney (5-7), heart (8, 9), brain (10), and vasculature (11), contain all the components of the RAS cascade and therefore have the potential for local synthesis and action of Ang-II. In the kidney, for example, renin, AGT and ACE mRNAs, and proteins are synthesized in juxtaglomerular cells, proximal convoluted tubule (PCT) cells, and endothelial and tubular cells, respectively, and Ang-II type-1 (AT-1) and type-2 (AT-2) receptors are localized in glomeruli, collecting ducts, tubules, and vasa recta (12)(13)(14)(15)(16)(17)(18). The intrarenal RAS has been postulated to regulate various aspects of renal function including blood flow, natriuresis, and tubular-glomerular feedback, and may therefore participate in the pathogenesis of hypertension (19 -21).…”

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confidence: 99%

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

Davisson

Hardy

et al. 1997

Journal of Biological Chemistry

138

134

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Transgenic mice were generated containing a 1542-base pair fragment of the kidney androgen-regulated protein (KAP) promoter fused to the human angiotensinogen (HAGT) gene with the goal of specifically targeting inducible expression of renin-angiotensin system components to the kidney. High level expression of both KAP-HAGT and endogenous KAP mRNA was evident in the kidney of male mice from two independent transgenic lines. Renal expression of the transgene in female mice was undetectable under basal conditions but could be strongly induced by administration of testosterone. Testosterone treatment did not cause a transcriptional induction in any other tissues examined. However, an analysis of six androgen target tissues in males revealed that the transgene was expressed in epididymis. No other extra-renal expression of the transgene was detected. In situ hybridization demonstrated that expression of HAGT (and KAP) mRNA in males and testosterone-treated females was restricted to proximal tubule epithelial cells in the renal cortex. Although there was no detectable human angiotensinogen protein in plasma, it was evident in the urine, consistent with a pathway of synthesis in proximal tubule cells and release into the tubular lumen. These results demonstrate that 1542 base pairs of the KAP promoter is sufficient to drive expression of a heterologous reporter gene in a tissue-specific, cell-specific, and androgen-regulated fashion in transgenic mice.The renin-angiotensin system (RAS) 1 is a classical endocrine system activated by the release of renin from the kidney and angiotensinogen (AGT) from the liver. In blood, renin proteolytically cleaves AGT to form angiotensin I (Ang-I) which is further processed by angiotensin converting enzyme to form Ang-II, a potent vasoconstrictor and antinatriuretic peptide. The RAS has been implicated in the genetic basis of hypertension and pre-eclampsia (1-4). Our understanding of the RAS in normal and pathophysiological regulation of blood pressure has been complicated by the fact that in addition to its actions as an endocrine system, certain individual tissues, such as the kidney (5-7), heart (8, 9), brain (10), and vasculature (11), contain all the components of the RAS cascade and therefore have the potential for local synthesis and action of Ang-II. In the kidney, for example, renin, AGT and ACE mRNAs, and proteins are synthesized in juxtaglomerular cells, proximal convoluted tubule (PCT) cells, and endothelial and tubular cells, respectively, and Ang-II type-1 (AT-1) and type-2 (AT-2) receptors are localized in glomeruli, collecting ducts, tubules, and vasa recta (12-18). The intrarenal RAS has been postulated to regulate various aspects of renal function including blood flow, natriuresis, and tubular-glomerular feedback, and may therefore participate in the pathogenesis of hypertension (19 -21). Our current understanding of the relative importance of the intrarenal versus systemic RAS comes largely from pharmacological studies (22) which have been limited by the specificity...

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mentioning

confidence: 99%

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

Davisson

Hardy

et al. 1997

Journal of Biological Chemistry

138

134

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“…Ang Ⅱ also acts through intracellular receptors. Local RAS was first described within the kidney over 20 years ago [29][30][31][32] , where the levels of Ang Ⅱ are much higher than in plasma [32,72] . Intrarenal Ang Ⅱ levels and local formation in the kidney have been reported by Navar and colleagues [11,32,[73][74][75][76] .…”

Section: Breaking Paradigmsmentioning

confidence: 99%

“…It is now considered that RAS assumes paracrine, autocrine and intracrine mechanisms of action in hormone signaling [6,28] . Many tissues and cells, including kidneys, have all the necessary RAS components to form Ang Ⅱ in situ [29][30][31] . Renal levels of Ang Ⅱ are much higher than in the plasma [32] , indicating that the source of Ang Ⅱ within the kidney is not only provided by filtered plasma Ang Ⅱ.…”

mentioning

confidence: 99%

“…Renal levels of Ang Ⅱ are much higher than in the plasma [32] , indicating that the source of Ang Ⅱ within the kidney is not only provided by filtered plasma Ang Ⅱ. The kidney expresses all the major components of the RAS, such as angiotensinogen, renin and ACE [29][30][31] . Locally synthesized Ang Ⅱ can act on cell surface, nuclear and cytoplasmic AT1 and AT2 receptors [33][34][35] .…”

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Renin-angiotensin system in the kidney: What is new?

Ferrão

Lara

Lowe

2014

WJN

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The renin-angiotensin system (RAS) has been known for more than a century as a cascade that regulates body fluid balance and blood pressure. Angiotensin Ⅱ (Ang Ⅱ) has many functions in different tissues; however it is on the kidney that this peptide exerts its main functions. New enzymes, alternative routes for Ang Ⅱ formation or even active Ang Ⅱ-derived peptides have now been described acting on Ang Ⅱ AT1 or AT2 receptors, or in receptors which have recently been cloned, such as Mas and AT4. Another interesting observation was that old members of the RAS, such as angiotensin converting enzyme (ACE), renin and prorenin, well known by its enzymatic activity, can also activate intracellular signaling pathways, acting as an outside-in signal transduction molecule or on the renin/(Pro)renin receptor. Moreover, the endocrine RAS, now is also known to have paracrine, autocrine and intracrine action on different tissues, expressing necessary components for local Ang Ⅱ formation. This in situ formation, especially in the kidney, increases Ang Ⅱ levels to regulate blood pressure and renal functions. These discoveries, such as the ACE2/Ang-(1-7)/Mas axis and its antangonistic effect rather than classical deleterious Ang Ⅱ effects, improves the development of new drugs for treating hypertension and cardiovascular diseases. Key words: Renin-angiotensin system; Angiotensin Ⅱ; Kidney; Hypertension treatment; Receptor Core tip: Activation of the angiotensin converting enzyme (ACE)/ Angiotensin Ⅱ (Ang Ⅱ)/AT1 axis leads to vasoconstriction, anti-diuresis, anti-natriuresis, release of aldosterone and anti-diuretic hormone, which can result in hypertension, renal and cardiovascular diseases. Inhibition of renin and ACE or blocking AT1 receptor is the most used therapies for heart failure and hypertension. Nevertheless, the discovery of local Ang Ⅱ synthesis, new Ang Ⅱ metabolites, receptors and axis of this system, makes possible the development of new drugs and strategies for renal and cardiovascular diseases treatment, such as activation of ACE2/Ang-(1-7)/ Mas axis, which presents opposite effects of AT1 activation by Ang Ⅱ.

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“…The intrarenal expression of renin, angiotensin-converting enzyme, and angiotensinogen mRNAs has been demonstrated by Northern blot analysis (1-6, 14), and the intrarenal tissue sites of renin and angiotensinogen mRNA synthesis have been localized by in situ hybridization (15)(16)(17) . Furthermore, studies using reverse transcription and polymerase chain reaction (RT-PCR) have shown the localization of angiotensin II type 1 receptor and angiotensinogen mRNA in microdissected nephron segments (18).…”

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confidence: 99%

Developmental Changes in Expression of Angiotensinogen mRNA in Rat Nephron Segments.

et al. 1998

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We studied the localization of angiotensinogen mRNA in rat nephron segments and the differences in angiotensinogen mRNA levels between male Sprague-Dawley rats at 6 and 12 wk of age using reverse transcription and polymerase chain reaction (RT-PCR). Each nephron segment of the rat kidney was microdissected.Total RNA was prepared and used in the following RT-PCR assay. The PCR products were size-fractionated by agarose gel electrophoresis, visualized with ethidium bromide staining, and identified by Southern blot analysis. The relative amounts of products were determined by densitometry. Strong bands corresponding to angiotensinogen mRNA were detected from proximal convoluted and straight tubules, and weaker bands were found in glomeruli. The signals in all tissues in 12-wk-old rats were weaker than those in 6-wk-old rats. Since local angiotensinogen is the unique substrate of the tissue renin-angiotensin system and exerts an autocrine-paracrine influence on renal function, the changes in tubular angiotensinogen may be related to physiological and morphological changes in the rat kidney during development. (Hypertens Res 1998; 21: 155-161)

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Renin and angiotensinogen gene expression in maturing rat kidney

Cited by 82 publications

References 15 publications

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

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

Renin-angiotensin system in the kidney: What is new?

Developmental Changes in Expression of Angiotensinogen mRNA in Rat Nephron Segments.

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