Monika Wysocka‐Kapcinska scite author profile

Monika Wysocka‐Kapcinska

5Publications

70Citation Statements Received

110Citation Statements Given

How they've been cited

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125

Affiliations

Institute of Biochemistry and Biophysics, Polish Academy of Sciences, National University of Ireland, Maynooth

Publications

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The effects of statins on the mevalonic acid pathway in recombinant yeast strains expressing human HMG-CoA reductase

et al. 2013

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BackgroundThe yeast Saccharomyces cerevisiae can be a useful model for studying cellular mechanisms related to sterol synthesis in humans due to the high similarity of the mevalonate pathway between these organisms. This metabolic pathway plays a key role in multiple cellular processes by synthesizing sterol and nonsterol isoprenoids. Statins are well-known inhibitors of 3-hydroxy-3-methylglutaryl-CoA reductase (HMGR), the key enzyme of the cholesterol synthesis pathway. However, the effects of statins extend beyond their cholesterol-lowering action, since inhibition of HMGR decreases the synthesis of all products downstream in the mevalonate pathway. Using transgenic yeast expressing human HMGR or either yeast HMGR isoenzyme we studied the effects of simvastatin, atorvastatin, fluvastatin and rosuvastatin on the cell metabolism.ResultsStatins decreased sterol pools, prominently reducing sterol precursors content while only moderately lowering ergosterol level. Expression of genes encoding enzymes involved in sterol biosynthesis was induced, while genes from nonsterol isoprenoid pathways, such as coenzyme Q and dolichol biosynthesis or protein prenylation, were diversely affected by statin treatment. Statins increased the level of human HMGR protein substantially and only slightly affected the levels of Rer2 and Coq3 proteins involved in non-sterol isoprenoid biosynthesis.ConclusionStatins influence the sterol pool, gene expression and protein levels of enzymes from the sterol and nonsterol isoprenoid biosynthesis branches and this effect depends on the type of statin administered. Our model system is a cheap and convenient tool for characterizing individual statins or screening for novel ones, and could also be helpful in individualized selection of the most efficient HMGR inhibitors leading to the best response and minimizing serious side effects.

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Investigating the Effects of Statins on Cellular Lipid Metabolism Using a Yeast Expression System

et al. 2009

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In humans, defects in lipid metabolism are associated with a number of severe diseases such as atherosclerosis, obesity and type II diabetes. Hypercholesterolemia is a primary risk factor for coronary artery disease, the major cause of premature deaths in developed countries. Statins are inhibitors of 3-hydroxy-3-methylglutaryl-CoA reductase (HMGR), the key enzyme of the sterol synthesis pathway. Since yeast Saccharomyces cerevisiae harbours many counterparts of mammalian enzymes involved in lipid-synthesizing pathways, conclusions drawn from research with this single cell eukaryotic organism can be readily applied to higher eukaryotes. Using a yeast strain with deletions of both HMG1 and HMG2 genes (i.e. completely devoid of HMGR activity) with introduced wild-type or mutant form of human HMGR (hHMGR) gene we investigated the effects of statins on the lipid metabolism of the cell. The relative quantification of mRNA demonstrated a different effect of simvastatin on the expression of the wild-type and mutated hHMGR gene. GC/MS analyses showed a significant decrease of sterols and enhanced conversion of squalene and sterol precursors into ergosterol. This was accompanied by the mobilization of ergosterol precursors localized in lipid particles in the form of steryl esters visualized by confocal microscopy. Changes in the level of ergosterol and its precursors in cells treated with simvastatin depend on the mutation in the hHMGR gene. HPLC/MS analyses indicated a reduced level of phospholipids not connected with the mevalonic acid pathway. We detected two significant phenomena. First, cells treated with simvastatin develop an adaptive response compensating the lower activity of HMGR. This includes enhanced conversion of sterol precursors into ergosterol, mobilization of steryl esters and increased expression of the hHMGR gene. Second, statins cause a substantial drop in the level of glycerophospholipids.

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Expression and characterization of recombinant human retinol-binding protein in Pichia pastoris

Wysocka‐Kapcinska

Campos-Sandoval

Pal

et al. 2010

Protein Expression and Purification

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Functional expression of human HMG-CoA reductase inSaccharomyces cerevisiae: a system to analyse normal and mutated versions of the enzyme in the context of statin treatment

Wysocka‐Kapcinska

Lutyk-Nadolska

Kiliszek

et al. 2009

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Aims: Statins – inhibitors of the 3‐hydroxy‐3‐methylglutaryl coenzyme A (HMG‐CoA) reductase – are known to reduce blood cholesterol levels. In this paper, we present a Saccharomyces cerevisiae expression system, which enables quick evaluation of the sensitivity of the wild‐type and/or mutant forms of human HMG‐CoA reductase towards statins or other drugs. Methods and results: We analysed the sequence of the HMG‐CoA reductase gene in DNA extracted from blood samples of 16 patients with cardiovascular disorders. We applied the yeast system to examine the sensitivity of the wild‐type and mutated versions of the hHMG‐CoA reductase to different types of statins. Conclusion: The yeast and mammalian HMG‐CoA reductases demonstrate structural and functional conservation, and expression of human HMG‐CoA reductase in yeast complements the lethal phenotype of strains lacking the HMG1 and HMG2 genes. Significance and Impact of the Study: These data indicate that a yeast expression system can serve to study the influence of selected mutations in human HMG‐CoA reductase on the sensitivity of the enzyme to commonly prescribed statins. Our results suggest that this model system is suitable for the development and selection of lipid‐lowering drugs as well as for the examination of DNA sequence variations in the context of statin therapy.

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Pan1p, an actin cytoskeleton-associated protein, is required for growth of yeast on oleate medium

Kamińska

Wysocka‐Kapcinska

Rooij

et al. 2005

Experimental Cell Research

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