Signal transduction of the (pro)renin receptor as a novel therapeutic target for preventing end-organ damage

Funke-Kaiser, Heiko; Zollmann, Frank S.; Schefe, Jan H.; Unger, Thomas

doi:10.1038/hr.2009.206

Cited by 39 publications

(37 citation statements)

References 89 publications

(105 reference statements)

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“…In cardiomyocytes, (pro)renin-bound (P)RR stimulates p38 MAPK, heat shock protein 27 and phosphatidylinositol-3-kinase-85. [89][90][91][92][93][94] Thus, diabetic nephropathy and retinopathy, and cardiac fibrosis develop mainly by the non-proteolytic activation of (pro)renin bound to the (P)RR. An upregulation in (pro)renin and (P)RR levels contributing to the development of nephropathy in diabetic animals has been reported by many investigators (reviewed in Balakumar and Jagadeesh 26 ).…”

Section: Implication Of (P)rrs In Pathologic Conditionsmentioning

confidence: 99%

Potential cross-talk between (pro)renin receptors and Wnt/frizzled receptors in cardiovascular and renal disorders

Balakumar

Jagadeesh

2011

Hypertens Res

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The renin-angiotensin system and Wnt/frizzled receptor signaling pathways are important in the development of essential organs, and their aberrant activation results in cardiovascular and renal pathologies. The (pro)renin receptor ((P)RR)-bound (pro)renin is enzymatically active generating angiotensin-II and activating mitogen-activated protein kinases, leading to cell proliferation and to upregulation of profibrotic genes expression, resulting in end-organ damage. The (P)RR does more than bind to (pro)renin, because it is functionally linked to the vacuolar-H + -ATPase (v-H + -ATPase) that regulates pH of cellular and intracellular vesicles, and to Wnt signaling. This signaling pathway is essential for cell survival, embryonic development and has had a role in various disease states as evidenced by mutation or genetic ablation of the (P)RR gene. This suggests two types of functions of (P)RRs, first one as a receptor for (pro)renin and second one as an accessory subunit of the v-H + -ATPase and a cofactor of the Wnt/Fz receptor complex. This review will discuss both of these functions of (P)RRs thereby giving new perspectives as to the roles of (P)RRs in cardiovascular and renal pathologies.

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Section: Implication Of (P)rrs In Pathologic Conditionsmentioning

confidence: 99%

Potential cross-talk between (pro)renin receptors and Wnt/frizzled receptors in cardiovascular and renal disorders

Balakumar

Jagadeesh

2011

Hypertens Res

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“…The complexity of RAAS is evidenced by the discovery that binding of (pro)renin to the (pro)renin receptor ((P)RR) [28] can produce non-angiotensin-IImediated effects which are not inhibited by aliskiren [29][30][31]. This latter finding underpins the concept that renin can act not only as an enzyme but also as a hormone [10,20], providing a putative mechanism for non-blood-pressure-related effects of all three classes of RAAS inhibitor, and thus important insights into how to combine different RAAS inhibitors in tailored therapies [3,10,32]. Yet, only five studies to date [7,9,17,32,33] have focussed on the cellular or molecular mechanisms underlying organ protection by aliskiren, and none have directly investigated the role(s) that metabolism might play.…”

Section: Page 4 Of 47mentioning

confidence: 53%

“…Some of the mechanisms by which these actions occur remain unclear, which highlights the increasing complexity of RAAS and especially the cellular function of (P)Rr [20]. Our study therefore raises fundamental questions for an emerging area of investigation into the metabolic effects of aliskiren and their relationship with organ protection and excitation-contraction coupling.…”

Section: Page 22 Of 47mentioning

confidence: 99%

“…A recent report shows that aliskiren is able to reduce atherogenesis in mice independent of anti-hypertensive effects [16]. Second, aliskiren also appears to be functionally beneficial or protective in other tissues (pancreatic β-cell epithelium [17,18], white adipose [18], immune and nervous tissues [19]) and might even reverse end-organ damage [3,7,20]. Third, DRI appears to have haemodynamic effects, in spontaneously hypertensive rats [7], in healthy humans on a low-sodium diet [21], and in patients with congestive heart failure [22].…”

Section: Introductionmentioning

confidence: 99%

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Aliskiren affects fatty-acid uptake and lipid-related genes in rodent and human cardiomyocytes

Rodríguez-Penas¹,

Feijóo‐Bandín²,

Lear³

et al. 2011

Biochemical Pharmacology

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2 ABSTRACT PURPOSE: We investigated whether the direct renin inhibitor aliskiren can affect metabolism in cardiomyocytes from rat, mouse and human sources. METHODS AND RESULTS: At 10-50µmol/L, aliskiren significantly increased medium-chain-fatty-acid uptake in primary-cultured neonatal-rat and HL-1 adult-mouse-derived cardiomyocytes (BODIPY-induced fluorescence intensity). The fatty-acid transporter CD-36 was correspondingly translocated to, but the glucose transporter Glut-4 away from, the sarcoplasmic reticulum/plasma membrane, in primary-cultured neonatal-rat (CD-36, Glut-4) and adult-human (CD-36) cardiomyocytes (confocal immunocytochemistry). Immunoblotting showed that aliskiren induced phosphorylation of ERK1/2 in cardiomyocytes from all three sources; responses were dose-and time-dependent, unaffected by renin treatment, and did not cause alterations in expression of (P)R or Igf2/M6Preceptors. Microarray analysis of the complete genome of aliskiren-treated neonatal-rat cardiomyocytes, with RT-qPCR and immunoblot confirmation assays in rat and human primary cardiomyocytes, showed that aliskiren up-regulated mRNA and increased protein expression of several enzymes important in lipid and glucose metabolism and in cholesterol biosynthesis.Cardiomyocyte cell-cycle and viability were unaffected by aliskiren. CONCLUSIONS: Aliskiren can induce changes in fatty-acid and glucose uptake and expression of key enzymes of lipid and cholesterol metabolism, which are not associated with increased expression of (P)R or Igf2/M6P receptors, in cultured cardiomyocytes.

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“…Numerous studies have verified that when the renin precursor binds to its receptor, it directly triggers angiotensin II independent reactions, which may be potentially active in the development of atherosclerotic plaques (14,15). The binding to PRR and the ability to induce a signal transduction cascade independent of the generation of angiotensin Ⅱ (13,16), including the activation of mitogen-activated protein kinase (MAPK) (17) and enhancement of the phosphorylation of extracellular signal-regulated kinase (ERK1/2) (18), promotes fibrosis gene expression, including transforming growth factor-β, plasminogen activator inhibitor-1, fibronectin and collagen proteins (19,20). However, to the best of our knowledge, there is little data demonstrating the direct effect of the atherogenic condition on the PRR.…”

Section: Introductionmentioning

confidence: 99%

Effect of oxidized low-density lipoprotein on the expression of the prorenin receptor in human aortic smooth muscle cells

Cheng

Liu

Zhang

et al. 2015

Molecular Medicine Reports

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Abstract. The activation of the (pro)renin receptor (PRR) may be potentially active in the development of atherosclerotic plaques independent of angiotensin II. Our previous studies demonstrated that high glucose was able to induce the activation of PRR. The present study was designed to determine the function of oxidized low-density lipoprotein (ox-LDL) on the expression of PRR in human aortic smooth muscle cells (HASMCs). Immunofluorescence revealed that PRR was expressed in HASMCs. HASMCs were cultured with 100 µg/ml ox-LDL for 1, 2, 4, 6, 12 and 24 h, respectively. Subsequently, HASMCs were cultured with 25, 50, 100, 150, 200 and 300 µg/ml ox-LDL for 6 h, respectively. Reverse transcription-quantitative polymerase chain reaction and western blot analysis revealed that the expression of PRR was markedly upregulated in a time-and concentration-dependent manner, which peaked at 6 h and 50 µg/ml, then slowly decreased. Therefore, PRR may contribute to the atherogenesis effect induced by ox-LDL.

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Signal transduction of the (pro)renin receptor as a novel therapeutic target for preventing end-organ damage

Cited by 39 publications

References 89 publications

Potential cross-talk between (pro)renin receptors and Wnt/frizzled receptors in cardiovascular and renal disorders

Potential cross-talk between (pro)renin receptors and Wnt/frizzled receptors in cardiovascular and renal disorders

Aliskiren affects fatty-acid uptake and lipid-related genes in rodent and human cardiomyocytes

Effect of oxidized low-density lipoprotein on the expression of the prorenin receptor in human aortic smooth muscle cells

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