[HTML][HTML] Distinct regulation of stearoyl-CoA desaturase 1 gene expression by cis and trans C18:1 fatty acids in human aortic smooth muscle cells

M Minville-Walz, J Gresti, L Pichon, S Bellenger… - Genes & nutrition, 2012 - Springer
M Minville-Walz, J Gresti, L Pichon, S Bellenger, J Bellenger, M Narce, M Rialland
Genes & nutrition, 2012Springer
Consumption of trans fatty acids is positively correlated with cardiovascular diseases and
with atherogenic risk factors. Trans fatty acids might play their atherogenic effects through
lipid metabolism alteration of vascular cells. Accumulation of lipids in vascular smooth
muscle cells is a feature of atherosclerosis and a consequence of lipid metabolism
alteration. Stearoyl-CoA desaturase 1 (scd1) catalyses the production of monounsaturated
fatty acids (eg oleic acid) and its expression is associated with lipogenesis induction and …
Abstract
Consumption of trans fatty acids is positively correlated with cardiovascular diseases and with atherogenic risk factors. Trans fatty acids might play their atherogenic effects through lipid metabolism alteration of vascular cells. Accumulation of lipids in vascular smooth muscle cells is a feature of atherosclerosis and a consequence of lipid metabolism alteration. Stearoyl-CoA desaturase 1 (scd1) catalyses the production of monounsaturated fatty acids (e.g. oleic acid) and its expression is associated with lipogenesis induction and with atherosclerosis development. We were interested in analysing the regulation of delta-9 desaturation rate and scd1 expression in human aortic smooth muscle cells (HASMC) exposed to cis and trans C18:1 fatty acid isomers (cis-9 oleic acid, trans-11 vaccenic acid or trans-9 elaidic acid) for 48 h at 100 μM. Treatment of HASMC with these C18:1 fatty acid isomers led to differential effects on delta-9 desaturation; oleic acid repressed the desaturation rate more potently than trans-11 vaccenic acid, whereas trans-9 elaidic acid increased the delta-9 desaturation rate. We then correlated the delta-9 desaturation rate with the expression of scd1 protein and mRNA. We showed that C18:1 fatty acids controlled the expression of scd1 at the transcriptional level in HASMC, leading to an increase in scd1 mRNA content by trans-9 elaidic acid treatment, whereas a decrease in scd1 mRNA content was observed with cis-9 oleic acid and trans-11 vaccenic acid treatments. Altogether, this work highlights a differential capability of C18:1 fatty acid isomers to control scd1 gene expression, which presumes of different consequent effects on cell functions.
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