Zhongchao Han scite author profile

Angiogenesis, the formation of new blood vessels from the pre-existing vasculature, is a complex multistage process regulated by a number of signal transduction pathways. Accumulating evidence suggests that signal transducer and activator of transcription (STATs), mainly STAT3, play an important role in angiogenesis under both physiological and pathological conditions in addition to cell survival, proliferation, differentiation, and oncogenesis. STAT3, as a critical multifunctional mediator, regulates many aspects of angiogenesis at the transcriptional level. This review will highlight the pivotal role of STAT3 in well-studied tumorous angiogenesis and cardiac angiogenesis, and summarize various potential mechanisms utilized by STAT3 to regulate the transcriptional activation of VEGF.

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Proliferation and differentiation of bone marrow stromal cells under hypoxic conditions

Ren

Cao

Zhao

et al. 2006

Biochemical and Biophysical Research Communications

182

136

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Oxidized low density lipoprotein impairs endothelial progenitor cells by regulation of endothelial nitric oxide synthase

Feng

Zhou

Chen

et al. 2006

Journal of Lipid Research

160

123

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Oxidized low density lipoprotein (OxLDL) is one of the most important risk factors of cardiovascular disease. Here, we study the impact of OxLDL on endothelial progenitor cells (EPCs) and determine whether OxLDL affects EPCs by an inhibitory effect on endothelial nitric oxide synthase (eNOS). It was found that OxLDL decreased EPC survival and impaired its adhesive, migratory, and tubeformation capacities in a dose-dependent manner. However, all of the detrimental effects of OxLDL were attenuated by pretreatment of EPCs with lectin-like oxidized low density lipoprotein receptor (LOX-1) monoclonal antibody or L-arginine. Western blot analysis revealed that OxLDL dosedependently decreased Akt phosphorylation and eNOS protein expression and increased LOX-1 protein expression. Furthermore, OxLDL caused a decrease in eNOS mRNA expression and an increase in LOX-1 mRNA expression. These data indicate that OxLDL inhibits EPC survival and impairs its function, and this action is attributable to an inhibitory effect on

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In vitro and in vivo differentiation of human umbilical cord derived stem cells into endothelial cells

Zhou

et al. 2006

J of Cellular Biochemistry

159

118

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The successful use of tissue-engineered transplants is hampered by the need for vascularization. Recent advances have made possible the using of stem cells as cell sources for therapeutic angiogenesis, including the vascularization of engineered tissue grafts. The goal of this study was to examine the endothelial potential of human umbilical cord-derived stem (UCDS) cells. UCDS cells were initially characterized and differentiated in an endothelial differentiation medium containing VEGF and bFGF. Differentiation into endothelial cells was determined by acetylated low-density lipoprotein incorporation and expression of endothelial-specific proteins, such as PECAM and CD34. In vivo, the transplanted UCDS cells were sprouting from local injection and differentiated into endothelial cells in a hindlimb ischemia mouse model. These findings indicate the presence of a cell population within the human umbilical cord that exhibits characteristics of endothelial progenitor cells. Therefore, human umbilical cord might represent a source of stem cells useful for therapeutic angiogenesis and re-endothelialization of engineered tissue grafts.

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Cross‐talk between the VEGF‐A and HGF signalling pathways in endothelial cells

Sulpice

Ding

Muscatelli-Groux

et al. 2009

Biology of the Cell

143

108

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Background information. Endothelial cells play a major role in angiogenesis, the process by which new blood vessels arise from a pre‐existing vascular bed. VEGF‐A (vascular endothelial growth factor‐A) is a key regulator of angiogenesis during both development and in adults. HGF (hepatocyte growth factor) is a pleiotropic cytokine that may promote VEGF‐A‐driven angiogenesis, although the signalling mechanisms underlying this co‐operation are not completely understood. Results. We analysed the effects of the combination of VEGF‐A and HGF on the activation of VEGFR‐2 (VEGF receptor‐2) and c‐met receptors, and on the stimulation of downstream signalling pathways in endothelial cells. We found that VEGFR‐2 and c‐met do not physically associate and do not transphosphorylate each other, suggesting that co‐operation involves signalling events more distal from receptor activation. We demonstrate that the VEGF isoform VEGF‐A165 and HGF stimulate a similar set of MAPKs (mitogen‐activated protein kinases), although the kinetics and strengths of the activation differ depending on the growth factor and pathway. An enhanced activation of the signalling was observed when endothelial cells were stimulated by the combination of VEGF‐A165 and HGF. Moreover, the combination of VEGF‐A and HGF results in a statistically significant synergistic activation of ERK1/2 (extracellular‐signal‐regulated kinase 1/2) and p38 kinases. We demonstrated that VEGF‐A165 and HGF activate FAK (focal adhesion kinase) with different kinetics and stimulate the recruitment of phosphorylated FAK to different subsets of focal adhesions. VEGF‐A165 and HGF regulate distinct morphogenic aspects of the cytoskeletal remodelling that are associated with the preferential activation of Rho or Rac respectively, and induce structurally distinct vascular‐like patterns in vitro in a Rho‐ or Rac‐dependent manner. Conclusions. Under angiogenic conditions, combining VEGF‐A with HGF can promote neovascularization by enhancing intracellular signalling and allowing more finely regulated control of the signalling molecules involved in the regulation of the cytoskeleton and cellular migration and morphogenesis.

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CD44 antibody-targeted liposomal nanoparticles for molecular imaging and therapy of hepatocellular carcinoma

et al. 2012

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Molecular mechanisms involved in self‐renewal and pluripotency of embryonic stem cells

Liu

Lü

Tian

et al. 2006

Journal Cellular Physiology

116

102

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Embryonic stem cells (ES cells) are derived from inner cell mass (ICM). The self-renewal and pluripotency are the main specificities of ES cells, which are likely to reveal a deeper understanding of human cellular biology and which are considered to be promising sources for cell therapy to treat patients with degenerative diseases in clinical. Growth of ES cells as a pluripotent population requires a balance between survival, proliferation, and self-renewal signals. In fact, the precise mechanism that regulates stem cell self-renewal and pluripotency remains largely unknown. Recently, in vitro and in vivo studies have identified several genetic regulators that may play important roles in the self-renewal and pluripotency process of human and mouse ES cells, including extracellular signaling factors, transcription factors, cellcycle regulators, microRNA, genes implicated in chromosomal stability, and DNA methylation. In this review, we will summarize the currently known molecular regulators for ES cells self-renewal, and we will propose some possibilities to explain the ways in which these distinct pathways might interact.

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Peroxisome proliferator-activated receptor γ in malignant diseases

Wang

et al. 2006

Critical Reviews in Oncology/Hematology

117

105

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Zhongchao Han

STAT3: A critical transcription activator in angiogenesis

Proliferation and differentiation of bone marrow stromal cells under hypoxic conditions

Oxidized low density lipoprotein impairs endothelial progenitor cells by regulation of endothelial nitric oxide synthase

In vitro and in vivo differentiation of human umbilical cord derived stem cells into endothelial cells

Cross‐talk between the VEGF‐A and HGF signalling pathways in endothelial cells

CD44 antibody-targeted liposomal nanoparticles for molecular imaging and therapy of hepatocellular carcinoma

Molecular mechanisms involved in self‐renewal and pluripotency of embryonic stem cells

Peroxisome proliferator-activated receptor γ in malignant diseases

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