Shin‐ichiro Miura scite author profile

The angiotensin II type 1 (AT 1 ) receptor is a G protein-coupled receptor that has a crucial role in the development of load-induced cardiac hypertrophy. Here, we show that cell stretch leads to activation of the AT 1 receptor, which undergoes an anticlockwise rotation and a shift of transmembrane (TM) 7 into the ligandbinding pocket. As an inverse agonist, candesartan suppressed the stretch-induced helical movement of TM7 through the bindings of the carboxyl group of candesartan to the specific residues of the receptor. A molecular model proposes that the tight binding of candesartan to the AT 1 receptor stabilizes the receptor in the inactive conformation, preventing its shift to the active conformation. Our results show that the AT 1 receptor undergoes a conformational switch that couples mechanical stress-induced activation and inverse agonist-induced inactivation.

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The I allele of the angiotensin‐converting enzyme gene is associated with an increased percentage of slow‐twitch type I fibers in human skeletal muscle

Zhang

Tanaka

Shono³

et al. 2003

Clinical Genetics

167

128

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The insertion (I) allele of the human angiotensin-converting enzyme (ACE) gene is associated with lower serum and tissue ACE activity, and with greater endurance performance and enhanced mechanical efficiency of trained muscle. We tested the hypothesis that the ACE-I allele may be associated with increased slow-twitch fiber, which is more efficient than fast-twitch fiber in low-velocity contraction, by examining the association between the ACE genotype and skeletal muscle fiber (SMF) types in 41 untrained healthy young volunteer subjects (31 males, 10 females, age 24 +/- 3 years). Skeletal muscle samples were taken from the left vastus lateralis using the needle-biopsy method. Slow-twitch type I fibers and fast-twitch type IIa and IIb fibers were classified histochemically based on staining for myosin adenosine triphosphatase (ATPase) activity at different pH values. Amylase-periodic acid-Schiff staining was used to visualize capillaries around fibers. ACE-II subjects had significantly (p < 0.01) higher percentages of type I fibers (50.1 +/- 13.9%vs 30.5 +/- 13.3%) and lower percentages of type IIb fibers (16.2 +/- 6.6%vs 32.9 +/- 7.4%) than ACE-DD subjects. The linear trends for decreases in type I fibers and increases in type IIb fibers from ACE-II --> ID --> DD genotypes were significant as assessed by an analysis of variance. The ratio of type I:II fibers also differed according to the ACE genotype. A multivariate logistic regression analysis showed that the ACE-I allele had significant additive and recessive (codominant) effects on the increased type I fibers and the ratio of type I:II fibers. No specific pattern of capillarization was observed among the three ACE genotypes. In conclusion, the ACE-I allele was associated with increased type I SMF, which may be a mechanism for the association between the ACE genotype and endurance performance.

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Mechanism of Constitutive Activation of the AT₁ Receptor: Influence of the Size of the Agonist Switch Binding Residue Asn¹¹¹

Miura

Husain

et al. 1998

Biochemistry

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The AT1 receptor is a G-protein-coupled receptor (GPCR); its activation from the basal state (R) requires an interaction between Asn111 in transmembrane helix III (TM-III) of the receptor and the Tyr4 residue of angiotensin II (Ang II). Asn111 to Gly111 mutation (N111G) results in constitutive activation of the AT1 receptor (Noda et al. (1996) Biochemistry, 35, 16435-16442). We show here that replacement of the AT1 receptors TM-III with a topologically identical 16-residue segment (Cys101-Val116) from the AT2 receptor induces constitutive activity, although Asn111 is preserved in the resulting chimera, CR18. Effects of CR18 and N111G mutations are neither additive nor synergistic. The conformation(s) induced in either mutant mimics the partially activated state (R'), and transition to the fully activated R conformation in both no longer requires the Tyr4 of Ang II. Both the R state of the receptor and the Tyr4 Ang II dependence of receptor activation can be reinstated by introduction of a larger sized Phe side chain at the 111 position in CR18, suggesting that the CR18 mutation generated an effect similar to the reduction of side chain size in the N111G mutation. Consistently in the native AT1 receptor, R' conformation is generated by replacement with residues smaller but not larger than the Asn111. However, size substitution of several other TM-III residues in both receptors did not affect transitions between R, R', and R states. Thus, the property responsible for Asn111 function as a conformational switch is neither polarity nor hydrogen bonding potential but the side chain size. We conclude that the fundamental mechanism responsible for constitutive activation of the AT1 receptor is to increase the entropy of the key agonist-switch binding residue, Asn111. As a result, the normally agonist-dependent R --> R' transition occurs spontaneously. This mechanism may be applicable to many other GPCRs.

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LCZ696, an angiotensin receptor–neprilysin inhibitor, improves cardiac function with the attenuation of fibrosis in heart failure with reduced ejection fraction in streptozotocin‐induced diabetic mice

Suematsu

Miura

Goto

et al. 2016

European J of Heart Fail

138

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AimsAngiotensin receptor-neprilysin inhibitors (ARNis) acts an ARB and neprilysin inhibitor. Diabetes mellitus significantly increases the risk of cardiovascular disease and heart failure (HF). Therefore, we evaluated the effects and mechanisms of ARNi in HF with reduced ejection fraction (HFrEF) Methods and resultsMale C57BL/6J mice were injected with streptozotocin to produce diabetic mice. After myocardial reperfusion injury, diabetic mice were randomized to treatment for 4 weeks with LCZ696 (60 mg/kg), valsartan (30 mg/kg), or no treatment (n = 26-28 in each group). Cardiac function was assessed by a pressure-volume Millar catheter. The ratios of heart weight to body weight in the valsartan (P = 0.02) and LCZ696 (P = 0.005) groups were significantly less than that in the control group. Treatment with LCZ696 improved LVEF (43 ± 3.4%) with a significantly reduction of atrial natriuretic peptide mRNA in the left ventricle compared with that in the control group (29 ± 3.2%) (P = 0.006). The fibrotic area in the LCZ696 group was significantly suppressed compared with those in the control (P = 0.003) and valsartan (P = 0.04) groups. Moreover, the mRNA level of transforming growth factor-(TGF-) in the left ventricle was suppressed in the LCZ696 group compared with that in the control (P = 0.002) group.

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JCS/JACR 2021 Guideline on Rehabilitation in Patients With Cardiovascular Disease

Makita

Yasu

Akashi

et al. 2022

Circ J

113

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