Angiotensin AT
            <sub>2</sub>
            Receptors Directly Stimulate Renal Nitric Oxide in Bradykinin B
            <sub>2</sub>
            -Receptor–Null Mice

Abadir, Peter M.; Carey, Robert M.; Siragy, Helmy M.

doi:10.1161/01.hyp.0000090323.58122.5c

Cited by 142 publications

(111 citation statements)

References 33 publications

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“…30,31 This occurs either directly 32 or indirectly through enhanced bradykinin formation 6,33 or increased endothelial NO synthase activity/expression. 34 Thus, AT 2 R may also favorably affect endothelial function.…”

Section: Discussionmentioning

confidence: 99%

Angiotensin Type 2 Receptor in Resistance Arteries of Type 2 Diabetic Hypertensive Patients

et al. 2007

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Abstract-The role of angiotensin type 2 receptor (AT 2 R) on vascular responses to angiotensin II in humans remains unclear. In this study we explored whether AT 2 R is expressed and functionally active on peripheral resistance arteries of hypertensive diabetic patients treated for 1 year with either the angiotensin receptor blocker valsartan or the ␤-blocker atenolol. Twenty-six hypertensive type 2 diabetic patients treated with oral hypoglycemic and antihypertensive agents (not receiving angiotensin receptor blockers or ␤-blockers) were randomly assigned to double-blind treatment for 1 year with valsartan or atenolol once daily added to their previous therapy in a clinical trial that we reported recently and compared with 10 normal subjects. Resistance arteries dissected from gluteal subcutaneous tissues were assessed on a pressurized myograph. Vasomotor response curves to angiotensin II (1 nmol/L to 1 mol/L) were performed on norepinephrine precontracted vessels in the presence of valsartan (10 mol/L) with or without the AT 2 R inhibitor PD123319 (1 mol/L). AT 2 R expression was evaluated by confocal microscopy. After 1 year of treatment, systolic and diastolic blood pressure was controlled and comparable in the valsartan and atenolol groups. Angiotensin II evoked a significant vasodilatory response only on resistance arteries from patients treated with valsartan, effect blocked by PD123319. AT 2 R expression was 4-fold higher in small arteries of valsartan-treated patients. A ngiotensin II (Ang II) is the main biological effector of the renin-angiotensin system, which plays a major role in cardiovascular and renal homeostasis. Most of the physiological and pathophysiological effects of Ang II are mediated by the angiotensin type 1 receptor (AT 1 R), which is widely expressed by most cell types. Expression of the angiotensin type 2 receptor (AT 2 R) is more limited and occurs predominantly in fetal tissues where it may play a role during development. 1,2 Recent studies, mostly in cellular and adult animal models, mapped the distribution of AT 2 R in certain areas of the brain, 3 kidneys, 4 coronary arteries, cardiomyocytes, ventricular myocardium, 5 and the vasculature. 6,7 Increased AT 2 R expression has been observed under pathological conditions, such as vascular injury, 8 hypertension, 6,7 myocardial infarction, 9,10 congestive heart failure, 11 renal failure, 12 and brain ischemia. 13 Few studies have investigated the functional expression of AT 2 R in humans. AT 2 Rs are expressed in the human skin (throughout the epidermal and dermal structures) 14 and are markedly upregulated in incisional cutaneous wounds. 15 AT 2 Rs have been demonstrated in the human coronary microcirculation, where they may contribute to vasodilation. 16 Studies in cellular and animal models suggest that AT 2 R counteracts many AT 1 R actions by inducing vasodilation, antiproliferation, and apoptosis. 2 We showed recently in animal models of hypertension that AT 2 R is upregulated and mediates vasodilation only when AT 1 Rs are bl...

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Section: Discussionmentioning

confidence: 99%

Angiotensin Type 2 Receptor in Resistance Arteries of Type 2 Diabetic Hypertensive Patients

et al. 2007

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“…AT 1 R blockade increases NO, and this increase is abolished by concomitant AT 2 R blockade, suggesting that AT 2 Rs are important in NO production (9). AT 2 Rs likely increase NO production via direct stimulation of NO synthase (NOS) (10) or indirectly through bradykinin-dependent mechanisms (7). Recently, the intracrine activation of AT 2 Rs has been reported to increase NO production in isolated cortical kidney nuclei (11).…”

mentioning

confidence: 99%

Identification and characterization of a functional mitochondrial angiotensin system

Abadir

Foster²,

Crow

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

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249

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The renin-angiotensin (Ang) system regulates multiple physiological functions through Ang II type 1 and type 2 receptors. Prior studies suggest an intracellular pool of Ang II that may be released in an autocrine manner upon stretch to activate surface membrane Ang receptors. Alternatively, an intracellular renin-Ang system has been proposed, with a primary focus on nuclear Ang receptors. A mitochondrial Ang system has not been previously described. Here we report that functional Ang II type 2 receptors are present on mitochondrial inner membranes and are colocalized with endogenous Ang. We demonstrate that activation of the mitochondrial Ang system is coupled to mitochondrial nitric oxide production and can modulate respiration. In addition, we present evidence of age-related changes in mitochondrial Ang receptor expression, i.e., increased mitochondrial Ang II type 1 receptor and decreased type 2 receptor density that is reversed by chronic treatment with the Ang II type 1 receptor blocker losartan. The presence of a functional Ang system in human mitochondria provides a foundation for understanding the interaction between mitochondria and chronic disease states and reveals potential therapeutic targets for optimizing mitochondrial function and decreasing chronic disease burden with aging.

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“…T he angiotensin II type 2 receptor (AT 2 R) mediates a vasodilator [1][2][3] cascade that includes bradykinin (BK), NO, and cGMP. BK, the major effector hormone of the kallikreinkinin system, acts mainly through the BK B 2 receptor (B 2 R) to mediate most of its cardiovascular and renal actions.…”

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confidence: 99%

Angiotensin II Type 2 Receptor–Bradykinin B ₂ Receptor Functional Heterodimerization

et al. 2006

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Abstract-Angiotensin II type 2 (AT 2 R) or bradykinin B 2 (B 2 R) receptor activation enhances NO production. Recently, we demonstrated enhancement of NO production when AT 2 R and B 2 R are simultaneously activated in vivo. However, the mechanism involved in this enhancement is unknown. Using confocal fluorescence resonance energy transfer microscopy, we report the distance between the AT 2 R and B 2 R in PC12W cell membranes to be 50Ϯ5 Å, providing evidence and quantification of receptor heterodimerization as the mechanism for enhancing NO production. The rate of AT 2 R-B 2 R heterodimer formation is largely a function of the degree of AT 2 R-B 2 R expression. The physical association between the dimerized receptors initiates changes in intracellular phosphoprotein signaling activities leading to phosphorylation of c-Jun terminal kinase, phosphotyrosine phosphatase, inhibitory protein B␣, and activating transcription factor 2; dephosphorylation of p38 and p42/44 mitogen-activated protein kinase and signal transducer inhibitor of transcription 3; and enhancing production of NO and cGMP. Controlling the expression of AT 2 R-B 2 R, consequently influencing their biologically active dimerization, presents a potential therapeutic target for the treatment of hypertension and other cardiovascular and renal disorders. Key Words: receptors, bradykinin Ⅲ nitric oxide Ⅲ angiotensin Ⅲ bradykinin T he angiotensin II type 2 receptor (AT 2 R) mediates a vasodilator 1-3 cascade that includes bradykinin (BK), NO, and cGMP. BK, the major effector hormone of the kallikreinkinin system, acts mainly through the BK B 2 receptor (B 2 R) to mediate most of its cardiovascular and renal actions. Our previous data demonstrated that, compared with individual receptor contributions, simultaneous activation of AT 2 R and B 2 R led to a 70% increase in NO production, 1 suggesting interaction between these 2 receptors. However, the molecular mechanism involving the AT 2 R-B 2 R-NO pathway is unknown.Receptor-receptor crosstalk is an essential process for plasma membrane-localized receptors, including those involving the superfamily of the 7 trans-membrane G proteincoupled receptors (GPCRs). 4 It is well established that a variety of cell surface receptors interact with each other to form dimers and that this is essential for their activation. Recent studies provided evidence for the existence of GPCR homodimers and heterodimers. 5 Heterodimerization has effects on ligand binding, receptor activation, desensitization, and trafficking, as well as receptor signaling different from those of the homodimer or oligomer. 6,7 Heterodimerization provides a newly recognized means of modulation of receptor function, as well as cross-talk between GPCRs. We hypothesized that AT 2 R and B 2 R heterodimerize to enhance NO production. In this study, fluorescence resonance energy transfer (FRET) microscopy was used to measure the molecular proximity between AT 2 R and B 2 R in PC12W in vivo and to provide evidence for and quantification of receptor heterodime...

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Angiotensin AT ₂ Receptors Directly Stimulate Renal Nitric Oxide in Bradykinin B ₂ -Receptor–Null Mice

Cited by 142 publications

References 33 publications

Angiotensin Type 2 Receptor in Resistance Arteries of Type 2 Diabetic Hypertensive Patients

Angiotensin Type 2 Receptor in Resistance Arteries of Type 2 Diabetic Hypertensive Patients

Identification and characterization of a functional mitochondrial angiotensin system

Angiotensin II Type 2 Receptor–Bradykinin B ₂ Receptor Functional Heterodimerization

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Angiotensin AT 2 Receptors Directly Stimulate Renal Nitric Oxide in Bradykinin B 2 -Receptor–Null Mice

Cited by 142 publications

References 33 publications

Angiotensin Type 2 Receptor in Resistance Arteries of Type 2 Diabetic Hypertensive Patients

Angiotensin Type 2 Receptor in Resistance Arteries of Type 2 Diabetic Hypertensive Patients

Identification and characterization of a functional mitochondrial angiotensin system

Angiotensin II Type 2 Receptor–Bradykinin B 2 Receptor Functional Heterodimerization

Contact Info

Product

Resources

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Angiotensin AT ₂ Receptors Directly Stimulate Renal Nitric Oxide in Bradykinin B ₂ -Receptor–Null Mice

Angiotensin II Type 2 Receptor–Bradykinin B ₂ Receptor Functional Heterodimerization