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149 results on '"Mukohda, Masashi"'

5. RhoBTB1 protects against hypertension and arterial stiffness by restraining phosphodiesterase 5 activity

Author

Mukohda, Masashi, Fang, Shi, Wu, Jing, Agbor, Larry N., Nair, Anand R., Ibeawuchi, Stella-Rita C., Hu, Chunyan, Liu, Xuebo, Lu, Ko-Ting, Guo, Deng-Fu, Davis, Deborah R., Keen, Henry L., Quelle, Frederick W., and Sigmund, Curt D.

Subjects
Hypertension -- Prevention, Angiotensin II, Type 2 diabetes -- Prevention, Vasodilator agents, Vasodilation, Ligases, Angiotensins, Ubiquitin, Smooth muscle, Health care industry, The University of Iowa
Abstract

Mice selectively expressing a PPAR[gamma] dominant-negative mutation in vascular smooth muscle exhibit RhoBTB1 deficiency and hypertension. Our rationale was to use genetic complementation to uncover the mechanism of action of RhoBTB1 in vascular smooth muscle. Inducible smooth muscle-specific restoration of RhoBTB1 fully corrected hypertension and arterial stiffness by improving vasodilator function. Notably, the cardiovascular protection occurred despite the preservation of increased agonist-mediated contraction and RhoA and Rho kinase activity, suggesting that RhoBTB1 selectively controls vasodilation. RhoBTB1 augmented the cyclic 3',5'-monophosphate (cGMP) response to NO by restraining the activity of phosphodiesterase 5 (PDE5) through its action as a substrate adaptor delivering PDE5 to the Cullin-3 E3 ring ubiquitin ligase complex for ubiquitination, thereby inhibiting PDE5. Angiotensin II infusion also caused RhoBTB1 deficiency and hypertension, which were prevented by smooth muscle-specific RhoBTB1 restoration. We conclude that RhoBTB1 protected against hypertension, vascular smooth muscle dysfunction, and arterial stiffness in at least 2 models of hypertension., Introduction PPAR[gamma] is a ligand-activated transcription factor known to regulate fatty acid metabolism. The clinical significance of PPAR[gamma] is best illustrated by the improvement in glycemic control in patients with [...]

Published
2019
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26. Failure to vasodilate in response to salt loading blunts renal blood flow and causes salt-sensitive hypertension

Author

Wu, Jing, primary, Agbor, Larry N, additional, Fang, Shi, additional, Mukohda, Masashi, additional, Nair, Anand R, additional, Nakagawa, Pablo, additional, Sharma, Avika, additional, Morgan, Donald A, additional, Grobe, Justin L, additional, Rahmouni, Kamal, additional, Weiss, Robert M, additional, McCormick, James A, additional, and Sigmund, Curt D, additional

Published
2020
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28. Interference with Endothelial PPARγ Causes Accelerated Cerebral Vascular Dysfunction in Response to Endogenous Renin-Angiotensin System Activation

Author

Nair, Anand R., Agbor, Larry N., Mukohda, Masashi, Liu, Xuebo, Hu, Chunyan, Wu, Jing, and Sigmund, Curt D.

Subjects
Male, Angiotensin II, Nuclear Receptor Coactivators, Mice, Transgenic, Article, Acetylcholine, Renin-Angiotensin System, Vasodilation, Mice, Basilar Artery, Renin, cardiovascular system, Animals, Endothelium, Vascular
Abstract

Low-salt diet is beneficial in salt-sensitive hypertension but may provoke cardiovascular risk in patients with heart failure, diabetes mellitus, or other cardiovascular abnormalities because of endogenous renin-angiotensin system activation. PPAR (peroxisome proliferator-activated receptor)-γ is a transcription factor which promotes an antioxidant pathway in the endothelium. We studied transgenic mice expressing a dominant-negative mutation in PPAR-γ selectively in the endothelium (E-V290M) to test the hypothesis that endothelial PPAR-γ plays a protective role in response to low salt-mediated renin-angiotensin system activation. Plasma renin and Ang II (angiotensin II) were significantly and equally increased in all mice fed low salt for 6 weeks. Vasorelaxation to acetylcholine was not affected in basilar artery from E-V290M at baseline but was significantly and selectively impaired in E-V290M after low salt. Unlike basilar artery, low salt was not sufficient to induce vascular dysfunction in carotid artery or aorta. Endothelial dysfunction in the basilar artery from E-V290M mice fed low salt was attenuated by scavengers of superoxide, inhibitors of NADPH oxidase, or blockade of the Ang II AT1 (angiotensin type-1) receptor. Simultaneous AT1 and AT2 receptor blockade revealed that the restoration of endothelial function after AT1 receptor blockade was not a consequence of AT2 receptor activation. We conclude that interference with PPAR-γ in the endothelium produces endothelial dysfunction in the cerebral circulation in response to low salt-mediated activation of the endogenous renin-angiotensin system, mediated at least in part, through AT1 receptor activation and perturbed redox homeostasis. Moreover, our data suggest that the cerebral circulation may be particularly sensitive to inhibition of PPAR-γ activity and renin-angiotensin system activation.

Published
2018

32. Protective Role of Vascular Smooth Muscle RhoBTB1 in Hypertension

Author

Fang, Shi, primary, Mukohda, Masashi, additional, Wu, Jing, additional, Agbor, Larry N., additional, Nair, Anand R., additional, Ibeawuchi, Stella‐Rita, additional, Hu, Chunyan, additional, Liu, Xuebo, additional, Lu, Ko‐ting, additional, Guo, Deng‐Fu, additional, Davis, Debbie, additional, Keen, Henry L., additional, Quelle, Fredrick W., additional, and Sigmund, Curt D., additional

Published
2019
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39. Abstract 110: Vascular Smooth Muscle RhoBTB1 Protects From Hypertension and Arterial Stiffness by Cullin-3 Dependent Ubiquitination of Phosphodiesterase 5

Author

Mukohda, Masashi, primary, Fang, Shi, additional, Wu, Jing, additional, Agbor, Larry N, additional, Nair, Anand R, additional, Ibeawuchi, Stella-Rita C, additional, Hu, Chunyan, additional, Liu, Xuebo, additional, Lu, Ko-Ting, additional, Guo, Deng-Fu, additional, Davis, Debbie R, additional, Keen, Henry L, additional, Quelle, Frederick W, additional, and Sigmund, Curt D, additional

Published
2018
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