The LIM-Only Protein FHL2 Reduces Vascular Lesion Formation Involving Inhibition of Proliferation and Migration of Smooth Muscle Cells

The LIM-only protein FHL2, also known as DRAL or SLIM3, has a function in fine-tuning multiple physiological processes. FHL2 is expressed in the vessel wall in smooth muscle cells (SMCs) and endothelial cells and conflicting data have been reported on the regulatory function of FHL2 in SMC phenotype...

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Autores principales: Kurakula, Kondababu, Vos, Mariska, Otermin Rubio, Iker, Marinković, Goran, Buettner, Reinhard, Heukamp, Lukas C., Stap, Jan, de Waard, Vivian, van Tiel, Claudia M., de Vries, Carlie J.M.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3988136/
https://www.ncbi.nlm.nih.gov/pubmed/24736599
http://dx.doi.org/10.1371/journal.pone.0094931
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author Kurakula, Kondababu
Vos, Mariska
Otermin Rubio, Iker
Marinković, Goran
Buettner, Reinhard
Heukamp, Lukas C.
Stap, Jan
de Waard, Vivian
van Tiel, Claudia M.
de Vries, Carlie J.M.
author_facet Kurakula, Kondababu
Vos, Mariska
Otermin Rubio, Iker
Marinković, Goran
Buettner, Reinhard
Heukamp, Lukas C.
Stap, Jan
de Waard, Vivian
van Tiel, Claudia M.
de Vries, Carlie J.M.
author_sort Kurakula, Kondababu
collection PubMed
description The LIM-only protein FHL2, also known as DRAL or SLIM3, has a function in fine-tuning multiple physiological processes. FHL2 is expressed in the vessel wall in smooth muscle cells (SMCs) and endothelial cells and conflicting data have been reported on the regulatory function of FHL2 in SMC phenotype transition. At present the function of FHL2 in SMCs in vascular injury is unknown. Therefore, we studied the role of FHL2 in SMC-rich lesion formation. In response to carotid artery ligation FHL2-deficient (FHL2-KO) mice showed accelerated lesion formation with enhanced Ki67 expression compared with wild-type (WT)-mice. Consistent with these findings, cultured SMCs from FHL2-KO mice showed increased proliferation through enhanced phosphorylation of extracellular-regulated kinase-1/2 (ERK1/2) and induction of CyclinD1 expression. Overexpression of FHL2 in SMCs inhibited CyclinD1 expression and CyclinD1-knockdown blocked the enhanced proliferation of FHL2-KO SMCs. We also observed increased CyclinD1 promoter activity in FHL2-KO SMCs, which was reduced upon ERK1/2 inhibition. Furthermore, FHL2-KO SMCs showed enhanced migration compared with WT SMCs. In conclusion, FHL2 deficiency in mice results in exacerbated SMC-rich lesion formation involving increased proliferation and migration of SMCs via enhanced activation of the ERK1/2-CyclinD1 signaling pathway.
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spelling pubmed-39881362014-04-21 The LIM-Only Protein FHL2 Reduces Vascular Lesion Formation Involving Inhibition of Proliferation and Migration of Smooth Muscle Cells Kurakula, Kondababu Vos, Mariska Otermin Rubio, Iker Marinković, Goran Buettner, Reinhard Heukamp, Lukas C. Stap, Jan de Waard, Vivian van Tiel, Claudia M. de Vries, Carlie J.M. PLoS One Research Article The LIM-only protein FHL2, also known as DRAL or SLIM3, has a function in fine-tuning multiple physiological processes. FHL2 is expressed in the vessel wall in smooth muscle cells (SMCs) and endothelial cells and conflicting data have been reported on the regulatory function of FHL2 in SMC phenotype transition. At present the function of FHL2 in SMCs in vascular injury is unknown. Therefore, we studied the role of FHL2 in SMC-rich lesion formation. In response to carotid artery ligation FHL2-deficient (FHL2-KO) mice showed accelerated lesion formation with enhanced Ki67 expression compared with wild-type (WT)-mice. Consistent with these findings, cultured SMCs from FHL2-KO mice showed increased proliferation through enhanced phosphorylation of extracellular-regulated kinase-1/2 (ERK1/2) and induction of CyclinD1 expression. Overexpression of FHL2 in SMCs inhibited CyclinD1 expression and CyclinD1-knockdown blocked the enhanced proliferation of FHL2-KO SMCs. We also observed increased CyclinD1 promoter activity in FHL2-KO SMCs, which was reduced upon ERK1/2 inhibition. Furthermore, FHL2-KO SMCs showed enhanced migration compared with WT SMCs. In conclusion, FHL2 deficiency in mice results in exacerbated SMC-rich lesion formation involving increased proliferation and migration of SMCs via enhanced activation of the ERK1/2-CyclinD1 signaling pathway. Public Library of Science 2014-04-15 /pmc/articles/PMC3988136/ /pubmed/24736599 http://dx.doi.org/10.1371/journal.pone.0094931 Text en © 2014 Kurakula 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
Kurakula, Kondababu
Vos, Mariska
Otermin Rubio, Iker
Marinković, Goran
Buettner, Reinhard
Heukamp, Lukas C.
Stap, Jan
de Waard, Vivian
van Tiel, Claudia M.
de Vries, Carlie J.M.
The LIM-Only Protein FHL2 Reduces Vascular Lesion Formation Involving Inhibition of Proliferation and Migration of Smooth Muscle Cells
title The LIM-Only Protein FHL2 Reduces Vascular Lesion Formation Involving Inhibition of Proliferation and Migration of Smooth Muscle Cells
title_full The LIM-Only Protein FHL2 Reduces Vascular Lesion Formation Involving Inhibition of Proliferation and Migration of Smooth Muscle Cells
title_fullStr The LIM-Only Protein FHL2 Reduces Vascular Lesion Formation Involving Inhibition of Proliferation and Migration of Smooth Muscle Cells
title_full_unstemmed The LIM-Only Protein FHL2 Reduces Vascular Lesion Formation Involving Inhibition of Proliferation and Migration of Smooth Muscle Cells
title_short The LIM-Only Protein FHL2 Reduces Vascular Lesion Formation Involving Inhibition of Proliferation and Migration of Smooth Muscle Cells
title_sort lim-only protein fhl2 reduces vascular lesion formation involving inhibition of proliferation and migration of smooth muscle cells
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3988136/
https://www.ncbi.nlm.nih.gov/pubmed/24736599
http://dx.doi.org/10.1371/journal.pone.0094931
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