Regulation of vimentin intermediate filaments in endothelial cells by hypoxia

Liu, Tiegang; Guevara, Oscar E.; Warburton, Rod R.; Hill, Nicholas S.; Gaestel, Matthias; Kayyali, Usamah S.

doi:10.1152/ajpcell.00057.2010

Cited by 63 publications

(68 citation statements)

References 24 publications

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“…Consistent with this premise, vimentin protein levels were significantly increased in the carotid artery and aortic arch of suprarenal abdominal aortaconstricted rats in this study, and a positive correlation was observed between the magnitude of expression and MAP and LVSP in the carotid artery alone. Thus, since vimentin expression has been reported in endothelial and vascular smooth muscle cells, both cell types may have contributed to the reported upregulation in the vasculature of banded rats (15,19).…”

Section: Discussionmentioning

confidence: 94%

Nestin upregulation characterizes vascular remodeling secondary to hypertension in the rat

Tardif

Hertig

Duquette

et al. 2015

American Journal of Physiology-Heart and Circulatory Physiology

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The present study tested the hypothesis that vessel remodeling secondary to hypertension was characterized by nestin upregulation in vascular smooth muscle cells. Two weeks after suprarenal abdominal aorta constriction of adult male Sprague-Dawley rats, elevated mean arterial pressure increased the media area and thickness of the carotid artery and aorta and concomitantly upregulated nestin protein levels. In the normal adult rat carotid artery, nestin immunoreactivity was observed in a subpopulation of vascular smooth muscle cells, and the density significantly increased following suprarenal abdominal aorta constriction. Filamentous nestin was detected in cultured rat carotid arteryand aorta-derived vascular smooth muscle cells and an analogous paradigm observed in human aorta-derived vascular smooth muscle cells. ANG II and EGF treatment of vascular smooth muscle cells stimulated DNA and protein synthesis and increased nestin protein levels. Lentiviral short-hairpin RNA-mediated nestin depletion of carotid artery-derived vascular smooth muscle cells inhibited peptide growth factor-stimulated DNA synthesis, whereas protein synthesis remained intact. These data have demonstrated that vessel remodeling secondary to hypertension was characterized in part by nestin upregulation in vascular smooth muscle cells. The selective role of nestin in peptide growth factor-stimulated DNA synthesis has revealed that the proliferative and hypertrophic responses of vascular smooth muscle cells were mediated by divergent signaling events. nestin; carotid artery; aorta; hypertension; vascular remodeling DURING THE DEVELOPMENT of the central nervous system (CNS), a population of neuroepithelial stem cells was initially identified via expression of the intermediate filament protein nestin (8,18). Nestin is a 240-kDa protein and a member of the class VI family of intermediate filament proteins, and, in contrast to other classes, it is unable to self-assemble and form homodimers because of a short NH 2 terminus (37, 39). Therefore, nestin will form heterodimers with other intermediate filament proteins, including vimentin and desmin (37). The promoter region upstream of exon 1 of the nestin gene does not contain any identifiable elements regulating expression. However, the nestin gene does contain regulatory elements in the various intron regions that drive expression in a cell-specific manner (37). In neural progenitor/stem cells, nestin expression is independently regulated by restricted enhancer elements identified in the second intron (43). In humans, a highly conserved region that directed expression was also identified in the second intron of the nestin gene (21). However, nestin expression driven by the second intron was not limited to CNSresident stem cells, since a transgenic mouse containing the 5.8-kb fragment of the promoter region and the 1.8-kb fragment of the second intron of the rat nestin gene linked to the reporter green fluorescent protein (GFP) identified progenitor/ stem cell populations in the skin, skeletal mus...

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Section: Discussionmentioning

confidence: 94%

Nestin upregulation characterizes vascular remodeling secondary to hypertension in the rat

Tardif

Hertig

Duquette

et al. 2015

American Journal of Physiology-Heart and Circulatory Physiology

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“…Vimentin has been reported to be phosphorylated upon p38 activation, and recent studies demonstrate that the p38-hsp27 pathway affects vimentin expression and filament assembly (Liu et al, 2010).…”

Section: Discussionmentioning

confidence: 99%

p38 maintains E-cadherin expression by modulating TAK1–NF-κB during epithelial-to-mesenchymal transition

Strippoli

Benedicto

Foronda

et al. 2010

Journal of Cell Science

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SummaryEpithelial-to-mesenchymal transition (EMT) of peritoneal mesothelial cells is a pathological process that occurs during peritoneal dialysis. EMT leads to peritoneal fibrosis, ultrafiltration failure and eventually to the discontinuation of therapy. Signaling pathways involved in mesothelial EMT are thus of great interest, but are mostly unknown. We used primary mesothelial cells from human omentum to analyze the role of the p38 MAPK signaling pathway in the induction of EMT. The use of specific inhibitors, a dominantnegative p38 mutant and lentiviral silencing of p38 demonstrated that p38 promotes E-cadherin expression both in untreated cells and in cells co-stimulated with the EMT-inducing stimuli transforming growth factor (TGF)-1 and interleukin (IL)-1. p38 inhibition also led to disorganization and downregulation of cytokeratin filaments and zonula occludens (ZO)-1, whereas expression of vimentin was increased. Analysis of transcription factors that repress E-cadherin expression showed that p38 blockade inhibited expression of Snail1 while increasing expression of Twist. Nuclear translocation and transcriptional activity of p65 NF-B, an important inducer of EMT, was increased by p38 inhibition. Moreover, p38 inhibition increased the phosphorylation of TGF--activated kinase 1 (TAK1), NF-B and IB. The effect of p38 inhibition on E-cadherin expression was rescued by modulating the TAK1-NF-B pathway. Our results demonstrate that p38 maintains E-cadherin expression by suppressing TAK1-NF-B signaling, thus impeding the induction of EMT in human primary mesothelial cells. This represents a novel role of p38 as a brake or 'gatekeeper' of EMT induction by maintaining E-cadherin levels.

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“…The assembly dynamics of vimentin IFs are controlled by phosphorylation status (43), as seen by fluorescent imaging of live cells, and are capable of assembling and disassembling rapidly in response to external stimuli, such as tumor-associated hypoxia (44). In addition, vimentin has been shown to be phosphorylated by protein kinase A at Serines 38 and 72, which leads to decreased filament formation in vivo.…”

Section: Assembly Dynamics Of Vimentinmentioning

confidence: 99%

The Role of Vimentin Intermediate Filaments in the Progression of Lung Cancer

Kidd

Shumaker

Ridge

2014

Am J Respir Cell Mol Biol

289

214

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There is an accumulation of evidence in the literature demonstrating the integral role of vimentin intermediate filaments (IFs) in the progression of lung cancers. Vimentin IF proteins have been implicated in many aspects of cancer initiation and progression, including tumorigenesis, epithelial-to-mesenchymal transition (EMT), and the metastatic spread of cancer. Specifically, vimentin IFs have been recognized as an essential component regulating EMT, major signal transduction pathways involved in EMT and tumor progression, cell migration and invasion, the positioning and anchorage of organelles, such as mitochondria, and cell-cell and cell-substrate adhesion. In tumorgenesis, vimentin forms a complex with 14-3-3 and beclin 1 to inhibit autophagy via an AKT-dependent mechanism. Vimentin is a canonical marker of EMT, and recent evidence has shown it to be an important regulator of cellular motility. Transcriptional regulation of vimentin through hypoxia-inducible factor-1 may be a potential driver of EMT. Finally, vimentin regulates 14-3-3 complexes and controls various intracellular signaling and cell cycle control pathways by depleting the availability of free 14-3-3. There are many exciting advances in our understanding of the complex role of vimentin IFs in cancer, pointing to the key role vimentin IFs may play in tumor progression.

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Regulation of vimentin intermediate filaments in endothelial cells by hypoxia

Cited by 63 publications

References 24 publications

Nestin upregulation characterizes vascular remodeling secondary to hypertension in the rat

Nestin upregulation characterizes vascular remodeling secondary to hypertension in the rat

p38 maintains E-cadherin expression by modulating TAK1–NF-κB during epithelial-to-mesenchymal transition

The Role of Vimentin Intermediate Filaments in the Progression of Lung Cancer

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