Cloning and Functional Studies of a Splice Variant of CYP26B1 Expressed in Vascular Cells

BACKGROUND: All-trans retinoic acid (atRA) plays an essential role in the regulation of gene expression, cell growth and differentiation and is also important for normal cardiovascular development but may in turn be involved in cardiovascular diseases, i.e. atherosclerosis and restenosis. The cellul...

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Autores principales: Elmabsout, Ali Ateia, Kumawat, Ashok, Saenz-Méndez, Patricia, Krivospitskaya, Olesya, Sävenstrand, Helena, Olofsson, Peder S., Eriksson, Leif A., Strid, Åke, Valen, Guro, Törmä, Hans, Sirsjö, Allan
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2012
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3362586/
https://www.ncbi.nlm.nih.gov/pubmed/22666329
http://dx.doi.org/10.1371/journal.pone.0036839
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author Elmabsout, Ali Ateia
Kumawat, Ashok
Saenz-Méndez, Patricia
Krivospitskaya, Olesya
Sävenstrand, Helena
Olofsson, Peder S.
Eriksson, Leif A.
Strid, Åke
Valen, Guro
Törmä, Hans
Sirsjö, Allan
author_facet Elmabsout, Ali Ateia
Kumawat, Ashok
Saenz-Méndez, Patricia
Krivospitskaya, Olesya
Sävenstrand, Helena
Olofsson, Peder S.
Eriksson, Leif A.
Strid, Åke
Valen, Guro
Törmä, Hans
Sirsjö, Allan
author_sort Elmabsout, Ali Ateia
collection PubMed
description BACKGROUND: All-trans retinoic acid (atRA) plays an essential role in the regulation of gene expression, cell growth and differentiation and is also important for normal cardiovascular development but may in turn be involved in cardiovascular diseases, i.e. atherosclerosis and restenosis. The cellular atRA levels are under strict control involving several cytochromes P450 isoforms (CYPs). CYP26 may be the most important regulator of atRA catabolism in vascular cells. The present study describes the molecular cloning, characterization and function of atRA-induced expression of a spliced variant of the CYP26B1 gene. METHODOLOGY/PRINCIPAL FINDINGS: The coding region of the spliced CYP26B1 lacking exon 2 was amplified from cDNA synthesized from atRA-treated human aortic smooth muscle cells and sequenced. Both the spliced variant and full length CYP26B1 was found to be expressed in cultured human endothelial and smooth muscle cells, and in normal and atherosclerotic vessel. atRA induced both variants of CYP26B1 in cultured vascular cells. Furthermore, the levels of spliced mRNA transcript were 4.5 times higher in the atherosclerotic lesion compared to normal arteries and the expression in the lesions was increased 20-fold upon atRA treatment. The spliced CYP26B1 still has the capability to degrade atRA, but at an initial rate one-third that of the corresponding full length enzyme. Transfection of COS-1 and THP-1 cells with the CYP26B1 spliced variant indicated either an increase or a decrease in the catabolism of atRA, probably depending on the expression of other atRA catabolizing enzymes in the cells. CONCLUSIONS/SIGNIFICANCE: Vascular cells express the spliced variant of CYP26B1 lacking exon 2 and it is also increased in atherosclerotic lesions. The spliced variant displays a slower and reduced degradation of atRA as compared to the full-length enzyme. Further studies are needed, however, to clarify the substrate specificity and role of the CYP26B1 splice variant in health and disease.
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spelling pubmed-33625862012-06-04 Cloning and Functional Studies of a Splice Variant of CYP26B1 Expressed in Vascular Cells Elmabsout, Ali Ateia Kumawat, Ashok Saenz-Méndez, Patricia Krivospitskaya, Olesya Sävenstrand, Helena Olofsson, Peder S. Eriksson, Leif A. Strid, Åke Valen, Guro Törmä, Hans Sirsjö, Allan PLoS One Research Article BACKGROUND: All-trans retinoic acid (atRA) plays an essential role in the regulation of gene expression, cell growth and differentiation and is also important for normal cardiovascular development but may in turn be involved in cardiovascular diseases, i.e. atherosclerosis and restenosis. The cellular atRA levels are under strict control involving several cytochromes P450 isoforms (CYPs). CYP26 may be the most important regulator of atRA catabolism in vascular cells. The present study describes the molecular cloning, characterization and function of atRA-induced expression of a spliced variant of the CYP26B1 gene. METHODOLOGY/PRINCIPAL FINDINGS: The coding region of the spliced CYP26B1 lacking exon 2 was amplified from cDNA synthesized from atRA-treated human aortic smooth muscle cells and sequenced. Both the spliced variant and full length CYP26B1 was found to be expressed in cultured human endothelial and smooth muscle cells, and in normal and atherosclerotic vessel. atRA induced both variants of CYP26B1 in cultured vascular cells. Furthermore, the levels of spliced mRNA transcript were 4.5 times higher in the atherosclerotic lesion compared to normal arteries and the expression in the lesions was increased 20-fold upon atRA treatment. The spliced CYP26B1 still has the capability to degrade atRA, but at an initial rate one-third that of the corresponding full length enzyme. Transfection of COS-1 and THP-1 cells with the CYP26B1 spliced variant indicated either an increase or a decrease in the catabolism of atRA, probably depending on the expression of other atRA catabolizing enzymes in the cells. CONCLUSIONS/SIGNIFICANCE: Vascular cells express the spliced variant of CYP26B1 lacking exon 2 and it is also increased in atherosclerotic lesions. The spliced variant displays a slower and reduced degradation of atRA as compared to the full-length enzyme. Further studies are needed, however, to clarify the substrate specificity and role of the CYP26B1 splice variant in health and disease. Public Library of Science 2012-05-29 /pmc/articles/PMC3362586/ /pubmed/22666329 http://dx.doi.org/10.1371/journal.pone.0036839 Text en Elmabsout et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Elmabsout, Ali Ateia
Kumawat, Ashok
Saenz-Méndez, Patricia
Krivospitskaya, Olesya
Sävenstrand, Helena
Olofsson, Peder S.
Eriksson, Leif A.
Strid, Åke
Valen, Guro
Törmä, Hans
Sirsjö, Allan
Cloning and Functional Studies of a Splice Variant of CYP26B1 Expressed in Vascular Cells
title Cloning and Functional Studies of a Splice Variant of CYP26B1 Expressed in Vascular Cells
title_full Cloning and Functional Studies of a Splice Variant of CYP26B1 Expressed in Vascular Cells
title_fullStr Cloning and Functional Studies of a Splice Variant of CYP26B1 Expressed in Vascular Cells
title_full_unstemmed Cloning and Functional Studies of a Splice Variant of CYP26B1 Expressed in Vascular Cells
title_short Cloning and Functional Studies of a Splice Variant of CYP26B1 Expressed in Vascular Cells
title_sort cloning and functional studies of a splice variant of cyp26b1 expressed in vascular cells
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3362586/
https://www.ncbi.nlm.nih.gov/pubmed/22666329
http://dx.doi.org/10.1371/journal.pone.0036839
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