Your search keyword '"Zhu, Shi-Hui"' showing total 2 results

1. Subvacuum environment‐enhanced cell migration promotes wound healing without increasing hypertrophic scars caused by excessive cell proliferation.

Author

Jin, Jian, Pan, Bo‐han, Wang, Kang‐an, Yu, Shao‐Shuo, Wu, Guo‐sheng, Fang, He, Zhu, Bang‐hui, Chen, Yu, Zhu, Liang‐liang, Liu, Yan, Xia, Zhao‐fan, Zhu, Shi‐hui, and Sun, Yu

Subjects

HYPERTROPHIC scars, CELL migration, CELL proliferation, HEALING, WOUND healing, SKIN regeneration, ANIMAL experimentation, CALCIUM channels

Abstract

Cell migration and proliferation are conducive to wound healing; however, regulating cell proliferation remains challenging, and excessive proliferation is an important cause of scar hyperplasia. Here, we aimed to explore how a subvacuum environment promotes wound epithelisation without affecting scar hyperplasia. Human immortalized keratinocyte cells and human skin fibroblasts were cultured under subvacuum conditions (1/10 atmospheric pressure), and changes in cell proliferation and migration, target protein content, calcium influx, and cytoskeleton and membrane fluidity were observed. Mechanical calcium (Ca2+) channel blockers were used to prevent Ca2+ influx for reverse validation. A rat wound model was used to elucidate the mechanism of the subvacuum dressing in promoting healing. The subvacuum environment was observed to promote cell migration without affecting cell proliferation; intracellular Ca2+ concentrations and PI3K, p‐PI3K, AKT1, p‐AKT 1 levels increased significantly. The cytoskeleton was depolymerized, pseudopodia were reduced or absent, and membrane fluidity increased. The use of Ca2+ channel blockers weakened or eliminated these changes. Animal experiments confirmed these phenomena and demonstrated that subvacuum dressings can effectively promote wound epithelisation. Our study demonstrates that the use of subvacuum dressings can enhance cell migration without affecting cell proliferation, promote wound healing, and decrease the probability of scar hyperplasia. [ABSTRACT FROM AUTHOR]

Published

2023

2. Macrophage migration inhibitory factor counter-regulates dexamethasone-induced annexin 1 expression and influences the release of eicosanoids in murine macrophages.

Author

Sun, Yu, Wang, Yu, Li, Jia‐Hui, Zhu, Shi‐Hui, Tang, Hong‐Tai, and Xia, Zhao‐Fan

Subjects

MACROPHAGE migration inhibitory factor, DEXAMETHASONE, ANNEXINS, EICOSANOIDS, LABORATORY mice, GENE expression, CYTOKINES, GLUCOCORTICOIDS

Abstract

Macrophage migration inhibitory factor ( MIF), a pro-inflammatory cytokine and glucocorticoid ( GC) counter-regulator, has emerged as an important modulator of inflammatory responses. However, the molecular mechanisms of MIF counter-regulation of GC still remain incomplete. In the present study, we investigated whether MIF mediated the counter-regulation of the anti-inflammatory effect of GC by affecting annexin 1 in RAW 264.7 macrophages. We found that stimulation of RAW 264.7 macrophages with lipopolysaccharide ( LPS) resulted in down-regulation of annexin 1, while GC dexamethasone ( Dex) or Dex plus LPS led to significant up-regulation of annexin 1 expression. RNA interference-mediated knockdown of intracellular MIF increased annexin 1 expression with or without incubation of Dex, whereas Dex-induced annexin 1 expression was counter-regulated by the exogenous application of recombinant MIF. Moreover, recombinant MIF counter-regulated, in a dose-dependent manner, inhibition of cytosolic phospholipase A2α (c PLA2α) activation and prostaglandin E2 ( PGE2) and leukotriene B4 (LTB4) release by Dex in RAW 264.7 macrophages stimulated with LPS. Endogenous depletion of MIF enhanced the effects of Dex, reflected by further decease of c PLA2α expression and lower PGE2 and LTB4 release in RAW 264.7 macrophages. Based on these data, we suggest that MIF counter-regulates Dex-induced annexin 1 expression, further influencing the activation of c PLA2α and the release of eicosanoids. These findings will add new insights into the mechanisms of MIF counter-regulation of GC. [ABSTRACT FROM AUTHOR]

Published

2013