Su-Ya Wang scite author profile

Induced pluripotent stem cell (iPSC) derived mesenchymal stem cells (iMSCs) represent a promising source of progenitor cells for approaches in the field of bone regeneration. Bone formation is a multi-step process in which osteogenesis and angiogenesis are both involved. Many reports show that the secretome of mesenchymal stromal stem cells (MSCs) influences the microenvironment upon injury, promoting cytoprotection, angiogenesis, and tissue repair of the damaged area. However, the effects of iPSC-derived MSCs secretome on angiogenesis have seldom been investigated. In the present study, the angiogenic properties of IFN-γ pre-conditioned iMSC secretomes were analyzed. We detected a higher expression of the pro-angiogenic genes and proteins of iMSCs and their secretome under IFN-γ and hypoxic stimulation (IFN-H). Tube formation and wound healing assays revealed a higher angiogenic potential of HUVECs in the presence of IFN-γ conditioned iMSC secretome. Sprouting assays demonstrated that within Coll/HA scaffolds, HUVECs spheroids formed significantly more and longer sprouts in the presence of IFN-γ conditioned iMSC secretome. Through gene expression analyses, pro-angiogenic genes (FLT-1, KDR, MET, TIMP-1, HIF-1α, IL-8, and VCAM-1) in HUVECs showed a significant up-regulation and down-regulation of two anti-angiogenic genes (TIMP-4 and IGFBP-1) compared to the data obtained in the other groups. Our results demonstrate that the iMSC secretome, pre-conditioned under inflammatory and hypoxic conditions, induced the highest angiogenic properties of HUVECs. We conclude that pre-activated iMSCs enhance their efficacy and represent a suitable cell source for collagen/hydroxyapatite with angiogenic properties.

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The cytoptrotection of small intestinal submucosa‐derived gel in HL‐1 cells during hypoxia/reoxygenation‐induced injury

Wang

Sang

Ding

et al. 2019

J Tissue Eng Regen Med

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Small intestinal submucosa (SIS)‐derived gel injected into infarcted myocardium has been shown to promote repair and regeneration after myocardial infarction (MI); however, the specific impact of SIS gel on cardiomyocytes remained unknown. The aim of this study was to characterise SIS gel function in hypoxia‐reoxygenation (H/R)‐induced cardiomyocyte damage and its potential mechanism. HL‐1 cardiomyocytes seeded on SIS matrix‐coated plates, SIS gel, and uncoated plates were subjected to H/R, cell viability, apoptosis, expression of caspase‐3, Bcl‐2, and Bax were investigated. SIS gel and SIS matrix as coating substrates markedly improved cell viability, preventing cell apoptosis compared with uncoated plates, with SIS gel yielding the best cytoprotective effects. SIS gel down‐regulated expression of pro‐inflammatory cytokines (TNF‐α, CCL2, and IL‐6) by inhibiting the JNK‐mitogen‐activated protein kinase (MAPK)/NF‐κB pathways. Furthermore, SIS gel protected cardiomyocytes from apoptosis by activating protein kinase B (AKT) and extracellular‐signal‐regulated kinase (ERK) pathways, and markedly up‐regulated antiapoptotic Bcl‐2 expression but inhibited that of proapoptotic Bax and c‐caspase 3. Together, these findings show that SIS gel could decrease H/R‐induced cell apoptosis through a mechanism potentially related to its ability to regulate expression of inflammatory cytokines and antiapoptosis signalling pathways to prevent cell apoptosis. Our findings thereby shed light on the mechanism related to SIS gel therapeutic efficacy for MI.

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Su-Ya Wang

Pre-Conditioning with IFN-γ and Hypoxia Enhances the Angiogenic Potential of iPSC-Derived MSC Secretome

The cytoptrotection of small intestinal submucosa‐derived gel in HL‐1 cells during hypoxia/reoxygenation‐induced injury

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