BACKGROUND: Hypoxic exposure contributes to the phenotypic switching of smooth muscle cells (SMCs), while the mechanisms involved in this process is not yet fully elucidated. Myocardin as a co-actor of serum reaction factor plays a crucial role in differentiation of SMCs. This study was aimed to investigate the role of myocardin in hypoxia-induced phenotypic switching of rat pulmonary arterial SMCs (PASMCs). METHODS: Primary PASMCs were cultured under normoxia and hypoxia (3%O(2), 48 h) respectively, and then the cell proliferation was assessed and the expression of SM22α, osteopontin (contractile and synthetic marker of SMCs, respectively), myocardin and platelet-derived growth factor-BB (PDGF-BB) were detected. After pGCSIL-GFP-shMYOCD lentviral vector was transduced to the PASMCs, the expression of myocardin and SM22α were examined. Moreover, myocardin expression in PASMCs treated with medium enriched with PDGF-BB and conditional medium (CM) from normoxia- and hypoxia-exposed PASMCs was assessed. RESULTS: Exposing PASMCs to hypoxia led to an increased cell numbers and the up-regulation of proliferating cell nuclear antigen (PCNA), osteopontin and PDGF-BB; moreover, a significant down-regulation of SM22α and myocardin was identified. Further analysis revealed that knock-down of myocardin with pGCSIL-GFP-shMYOCD vector followed by a decreased SM22α in the PASMCs, and treatment of PASMCs with either exogenous PDGF-BB or hypoxic CM led to a marked decrease of myocardin. CONCLUSIONS: Our findings suggest that the decrease of myocardin in PASMCs exposed to hypoxia is partly regulated by the increase of PDGF-BB, which contributes to the phenotypic switching of PASMCs in hypoxic condition.
BACKGROUND: Hypoxic exposure contributes to the phenotypic switching of smooth muscle cells (SMCs), while the mechanisms involved in this process is not yet fully elucidated. Myocardin as a co-actor of serum reaction factor plays a crucial role in differentiation of SMCs. This study was aimed to investigate the role of myocardin in hypoxia-induced phenotypic switching of rat pulmonary arterial SMCs (PASMCs). METHODS: Primary PASMCs were cultured under normoxia and hypoxia (3%O(2), 48 h) respectively, and then the cell proliferation was assessed and the expression of SM22α, osteopontin (contractile and synthetic marker of SMCs, respectively), myocardin and platelet-derived growth factor-BB (PDGF-BB) were detected. After pGCSIL-GFP-shMYOCD lentviral vector was transduced to the PASMCs, the expression of myocardin and SM22α were examined. Moreover, myocardin expression in PASMCs treated with medium enriched with PDGF-BB and conditional medium (CM) from normoxia- and hypoxia-exposed PASMCs was assessed. RESULTS: Exposing PASMCs to hypoxia led to an increased cell numbers and the up-regulation of proliferating cell nuclear antigen (PCNA), osteopontin and PDGF-BB; moreover, a significant down-regulation of SM22α and myocardin was identified. Further analysis revealed that knock-down of myocardin with pGCSIL-GFP-shMYOCD vector followed by a decreased SM22α in the PASMCs, and treatment of PASMCs with either exogenous PDGF-BB or hypoxic CM led to a marked decrease of myocardin. CONCLUSIONS: Our findings suggest that the decrease of myocardin in PASMCs exposed to hypoxia is partly regulated by the increase of PDGF-BB, which contributes to the phenotypic switching of PASMCs in hypoxic condition.
Authors: Olayemi O Adeoye; Stacy M Butler; Margaret C Hubbell; Andrew Semotiuk; James M Williams; William J Pearce Journal: Am J Physiol Cell Physiol Date: 2013-01-16 Impact factor: 4.249
Authors: Sukrutha Chettimada; Rakhee Gupte; Dhwajbahadur Rawat; Sarah A Gebb; Ivan F McMurtry; Sachin A Gupte Journal: Am J Physiol Lung Cell Mol Physiol Date: 2014-12-05 Impact factor: 5.464
Authors: Sukrutha Chettimada; Dhwajbahadur K Rawat; Nupur Dey; Robert Kobelja; Zachary Simms; Michael S Wolin; Thomas M Lincoln; Sachin A Gupte Journal: Am J Physiol Lung Cell Mol Physiol Date: 2012-05-11 Impact factor: 5.464
Authors: Duo Xu; Jian-teng Gu; Bin Yi; Lin Chen; Guan-song Wang; Gui-sheng Qian; Kai-zhi Lu Journal: J Cell Mol Med Date: 2015-07-06 Impact factor: 5.310