Satoshi Imaizumi scite author profile

We examined whether reduced levels of Apolipoprotein A-I (apoA-I) in ovarian cancer patients are causal in ovarian cancer in a mouse model. Mice expressing a human apoA-I transgene had (i) increased survival (P < 0.0001) and (ii) decreased tumor development (P < 0.01), when compared with littermates, following injection of mouse ovarian epithelial papillary serous adenocarcinoma cells (ID-8 cells). ApoA-I mimetic peptides reduced viability and proliferation of ID8 cells and cis-platinum-resistant human ovarian cancer cells, and decreased ID-8 cell-mediated tumor burden in C57BL/6J mice when administered subcutaneously or orally. Serum levels of lysophosphatidic acid, a well-characterized modulator of tumor cell proliferation, were significantly reduced (>50% compared with control mice, P < 0.05) in mice that received apoA-I mimetic peptides (administered either subcutaneously or orally), suggesting that binding and removal of lysophosphatidic acid is a potential mechanism for the inhibition of tumor development by apoA-I mimetic peptides, which may serve as a previously unexplored class of anticancer agents.

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Conformational switch of angiotensin II type 1 receptor underlying mechanical stress‐induced activation

Yasuda

et al. 2008

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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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Anti-inflammatory and Antioxidant Properties of HDLs Are Impaired in Type 2 Diabetes

et al. 2011

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OBJECTIVEIn mice, 4F, an apolipoprotein A-I mimetic peptide that restores HDL function, prevents diabetes-induced atherosclerosis. We sought to determine whether HDL function is impaired in type 2 diabetic (T2D) patients and whether 4F treatment improves HDL function in T2D patient plasma in vitro.RESEARCH DESIGN AND METHODSHDL anti-inflammatory function was determined in 93 T2D patients and 31 control subjects as the ability of test HDLs to inhibit LDL-induced monocyte chemotactic activity in human aortic endothelial cell monolayers. The HDL antioxidant properties were measured using a cell-free assay that uses dichlorofluorescein diacetate. Oxidized fatty acids in HDLs were measured by liquid chromatography–tandem mass spectrometry. In subgroups of patients and control subjects, the HDL inflammatory index was repeated after incubation with L-4F.RESULTSThe HDL inflammatory index was 1.42 ± 0.29 in T2D patients and 0.70 ± 0.19 in control subjects (P < 0.001). The cell-free assay was impaired in T2D patients compared with control subjects (2.03 ± 1.35 vs. 1.60 ± 0.80, P < 0.05), and also HDL intrinsic oxidation (cell-free assay without LDL) was higher in T2D patients (1,708 ± 739 vs. 1,233 ± 601 relative fluorescence units, P < 0.001). All measured oxidized fatty acids were significantly higher in the HDLs of T2D patients. There was a significant correlation between the cell-free assay values and the content of oxidized fatty acids in HDL fractions. L-4F treatment restored the HDL inflammatory index in diabetic plasma samples (from 1.26 ± 0.17 to 0.71 ± 0.11, P < 0.001) and marginally affected it in healthy subjects (from 0.81 ± 0.16 to 0.66 ± 0.10, P < 0.05).CONCLUSIONSIn patients with T2D, the content of oxidized fatty acids is increased and the anti-inflammatory and antioxidant activities of HDLs are impaired.

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Molecular Mechanism Underlying Inverse Agonist of Angiotensin II Type 1 Receptor

Miura

Fujino

Hanzawa

et al. 2006

Journal of Biological Chemistry

120

119

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To delineate the molecular mechanism underlying the inverse agonist activity of olmesartan, a potent angiotensin II type 1 (AT 1 ) receptor antagonist, we performed binding affinity studies and an inositol phosphate production assay. 257 was found to be important for the interaction with olmesartan but not for the inverse agonist activity. Based on these results, we constructed a model for the interaction between olmesartan and the AT 1 receptor. Although the activation of G protein-coupled receptors is initiated by anti-clockwise rotation of transmembrane (TM) III and TM VI followed by changes in the conformation of the receptor, in this model, cooperative interactions between the hydroxyl group and Tyr 113 in TM III and between the carboxyl group and His 256 in TM VI were essential for the potent inverse agonist activity of olmesartan. We speculate that the specific interaction of olmesartan with these two TMs is essential for stabilizing the AT 1 receptor in an inactive conformation. A better understanding of the molecular mechanisms of the inverse agonism could be useful for the development of new G proteincoupled receptor antagonists with inverse agonist activity.Angiotensin II (Ang II) 3 receptor antagonists (ARBs) are highly selective for the Ang II type 1 (AT 1 ) receptor, which is a member of the G protein-coupled receptor (GPCR) superfamily, and block the diverse effects of Ang II. In addition to their blood pressure-lowering effects in hypertensive patients, ARBs have been shown to promote regression of left ventricular hypertrophy and decrease cardiovascular morbidity and mortality in patients with heart failure or hypertensive diabetic nephropathy with proteinuria (1). Many ARBs are available for clinical use. Because not all ARBs have the same effects, some benefits conferred by ARBs may not be class effects (2). This notion represents an exciting new area in ARB-based therapy, which holds the promise of reducing the incidence of cardiovascular disease.Inverse agonists, such as the opioid receptor ligand ICI174864 (3), block agonist-independent signal transduction by GPCRs. Many clinically important medications have been shown to behave as inverse agonists when tested against either wild-type (WT) or mutated GPCRs; e.g. olanzapine in the 5-hydroxytryptamine 2C receptors (4) and metoprolol in the ␤-adrenoreceptor (5). Spontaneous receptor mutations leading to constitutive activity have been implicated in some human diseases (6, 7). However, such spontaneous mutations have not been reported for the AT 1 receptor, and the WT AT 1 receptor shows slight constitutive activity (2). A recent study demonstrates that the WT AT 1 receptor is activated by mechanical stretching of cultured rat myocytes without the involvement of Ang II, and this was suppressed by an inverse agonist (8). The same study also demonstrates that cardiac hypertrophy induced by constricting the transverse aorta in angiotensinogen knock-out mice was attenuated by an inverse agonist, suggesting that the WT AT 1 receptor is activated ind...

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Vocal identification of speaker and emotion activates differerent brain regions

et al. 1997

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Regional cerebral blood flow was measured in six healthy volunteers by positron emission tomography during identification of speaker and emotion from spoken words. The speaker identification task activated several audio-visual multimodal areas, particularly the temporal poles in both hemispheres, which may be involved in connecting vocal attributes with the visual representations of speakers. The emotion identification task activated regions in the cerebellum and the frontal lobe, suggesting a functional relationship between those regions involved in emotion. The results suggest that different anatomical structures contribute to the vocal identification of speaker and emotion.

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