Asker Y. Khapchaev scite author profile

Asker Y. Khapchaev

3Publications

51Citation Statements Received

34Citation Statements Given

How they've been cited

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266

Affiliations

National Medical Research Center of Cardiology, Institute of Experimental Cardiology, Lomonosov Moscow State University

Publications

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Myosin light chain kinase MYLK1: Anatomy, interactions, functions, and regulation

Khapchaev

Shirinsky

2016

Biochemistry Moscow

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This review discusses and summarizes the results of molecular and cellular investigations of myosin light chain kinase (MLCK, MYLK1), the key regulator of cell motility. The structure and regulation of a complex mylk1 gene and the domain organization of its products is presented. The interactions of the mylk1 gene protein products with other proteins and posttranslational modifications of the mylk1 gene protein products are reviewed, which altogether might determine the role and place of MLCK in physiological and pathological reactions of cells and entire organisms. Translational potential of MLCK as a drug target is evaluated.

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MLCK and ROCK mutualism in endothelial barrier dysfunction

2020

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Impact of Atherosclerosis‐ and Diabetes‐Related Dicarbonyls on Vascular Endothelial Permeability: A Comparative Assessment

Samsonov

Khapchaev

Vorotnikov

et al. 2017

Oxidative Medicine and Cellular Longevity

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Background Malondialdehyde (MDA), glyoxal (GO), and methylglyoxal (MGO) levels increase in atherosclerosis and diabetes patients. Recent reports demonstrate that GO and MGO cause vascular endothelial barrier dysfunction whereas no evidence is available for MDA. Methods To compare the effects of MDA, GO, or MGO on endothelial permeability, we used human EA.hy926 endothelial cells as a standard model. To study cortical cytoplasm motility and cytoskeletal organization in endothelial cells, we utilized time-lapse microscopy and fluorescent microscopy. To compare dicarbonyl-modified protein band profiles in these cells, we applied Western blotting with antibodies against MDA- or MGO-labelled proteins. Results MDA (150–250 μM) irreversibly suppressed the endothelial cell barrier, reduced lamellipodial activity, and prevented intercellular contact formation. The motile deficiency of MDA-challenged cells was accompanied by alterations in microtubule and microfilament organization. These detrimental effects were not observed after GO or MGO (250 μM) administration regardless of confirmed modification of cellular proteins by MGO. Conclusions Our comparative study demonstrates that MDA is more damaging to the endothelial barrier than GO or MGO. Considering that MDA endogenous levels exceed those of GO or MGO and tend to increase further during lipoperoxidation, it appears important to reduce oxidative stress and, in particular, MDA levels in order to prevent sustained vascular hyperpermeability in atherosclerosis and diabetes patients.

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