Seo Yeon Jin scite author profile

In this study, we investigated the role of Akt1 isoform in phenotypic change of vascular smooth muscle cells (VSMCs) and neointima formation. Laminin-induced conversion of synthetic VSMCs into contractile VSMCs was measured by expression of marker proteins for contractile VSMCs and collagen gel contraction assay. Culture of synthetic VSMCs on laminin-coated plates induced expression of marker proteins for contractile VSMCs and showed contraction in response to angiotensin II (AngII) stimulation. Silencing integrin-linked kinase attenuated activation of Akt and blocked phenotypic conversion of VSMCs resulting in the loss of AngII-dependent contraction. Laminin-induced phenotypic conversion of VSMCs was abrogated by phosphatidylinositol 3-kinase inhibitor or in cells silencing Akt1 but not Akt2. Proliferation of contractile VSMCs on laminin-coated plate was enhanced in cells silencing Akt1 whereas silencing Akt2 did not affect. Promoter activity of myocardin and SM22α was enhanced in contractile phenotype and overexpression of myocardin stimulated promoter activity of SM22α in synthetic phenotype. Promoter activity of myocardin and SM22α was reduced in cells silencing Akt1 and promoter activity of SM22α was restored by overexpression of myocardin in cells silencing Akt1. However, silencing of Akt2 affected neither promoter activity of myocardin nor SM22α. Finally, neointima formation in carotid artery ligation and high fat-diet-induced atherosclerosis was facilitated in mice lacking Akt1. This study demonstrates that Akt1 isoform stimulates laminin-induced phenotypic conversion of synthetic VSMCs by regulating the expression of myocardin. VSMCs become susceptible to shifting from contractile to synthetic phenotype by the loss of Akt1 in pathological conditions.

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Uncoordinated 51‐like kinase 2 signaling pathway regulates epithelial‐mesenchymal transition in A549 lung cancer cells

Kim

Baek

Kim

et al. 2016

FEBS Letters

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Epithelial-mesenchymal transition (EMT) is a critical response during cancer cell metastasis. In this study, we provide evidence that uncoordinated 51-like kinase 2 (ULK2) regulates EMT. Induction of autophagy by inhibition of mammalian target of rapamycin complex 1 (mTORC1) or by disruption of mTORC1 by silencing raptor significantly enhanced EMT, however, disruption of mTORC2 by silencing rictor had no effect. Knockdown of ULK2 expression significantly induced autophagy, EMT, and migration but suppressed proliferation as well as tumor growth in a xenotransplantation model, whereas silencing of ULK1 had no effect. Therefore, we suggest that ULK2 regulates EMT through modulation of autophagy.

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Prostaglandin D2 stimulates phenotypic changes in vascular smooth muscle cells

Lee

Yun

et al. 2019

Exp Mol Med

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Since chronic inflammation is associated with the pathogenesis of atherosclerosis, inflammatory cytokines might contribute to the phenotypic modulation of vascular smooth muscle cells (VSMCs). Tumor necrosis factor α (TNFα) facilitated the transformation of contractile VSMCs to the synthetic phenotype, as determined by the expression of marker proteins and a collagen gel contraction assay. Western blot analysis and a cyclooxygenase-2 (COX2) promoter assay revealed that TNFα stimulation resulted in the induction of COX2. The overexpression, silencing, or pharmacological inhibition of COX2 significantly affected TNFα-induced phenotypic conversion, and of the tested prostaglandins, only PGD 2 significantly induced phenotypic conversion. ERK was significantly activated by PGD 2 stimulation, and the pharmacological inhibition of ERK blocked the PGD 2-induced phenotypic conversion of VSMCs. However, antagonists or agonists of PGD 2 receptors did not affect VSMC conversion. In contrast, spontaneously dehydrated forms of PGD 2 , such as PGJ 2 , Δ 12-PGJ 2 , and 15-d-PGJ 2 , strongly induced phenotypic conversion. A reporter gene assay showed that TNFα, PGD 2 , and 15-d-PGJ 2 significantly activated the peroxisome proliferator-responsive element (PPRE) promoter. In addition, the overexpression or silencing of peroxisome proliferator-activated receptor δ (PPARδ) significantly influenced 15-d-PGJ 2-induced phenotypic conversion. Finally, atherosclerotic neointima formation was significantly suppressed in mice lacking TNFα. In addition, mice fed celecoxib exhibited complete inhibition of carotid artery ligation-induced neointima formation. This study shows that PGD 2 regulates the phenotypic conversion of VSMCs by generating an endogenous ligand of PPAR, and that this leads to neointima formation in occlusive arterial disease.

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Regulation of retinal angiogenesis by endothelial nitric oxide synthase signaling pathway

Jin

Lee

et al. 2016

Korean J Physiol Pharmacol

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Angiogenesis plays an essential role in embryo development, tissue repair, inflammatory diseases, and tumor growth. In the present study, we showed that endothelial nitric oxide synthase (eNOS) regulates retinal angiogenesis. Mice that lack eNOS showed growth retardation, and retinal vessel development was significantly delayed. In addition, the number of tip cells and filopodia length were significantly reduced in mice lacking eNOS. Retinal endothelial cell proliferation was significantly blocked in mice lacking eNOS, and EMG-2-induced endothelial cell sprouting was significantly reduced in aortic vessels isolated from eNOS-deficient mice. Finally, pericyte recruitment to endothelial cells and vascular smooth muscle cell coverage to blood vessels were attenuated in mice lacking eNOS. Taken together, we suggest that the endothelial cell function and blood vessel maturation are regulated by eNOS during retinal angiogenesis.

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Seo Yeon Jin

Platelet-derived growth factor regulates vascular smooth muscle phenotype via mammalian target of rapamycin complex 1

Akt1 isoform modulates phenotypic conversion of vascular smooth muscle cells

Uncoordinated 51‐like kinase 2 signaling pathway regulates epithelial‐mesenchymal transition in A549 lung cancer cells

Prostaglandin D2 stimulates phenotypic changes in vascular smooth muscle cells

Regulation of retinal angiogenesis by endothelial nitric oxide synthase signaling pathway

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