Hypoxia regulates CD9-mediated keratinocyte migration via the P38/MAPK pathway
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Abstract:
Keratinocyte migration is an early event in the wound healing process. Although we previously found that CD9 downregulation is required for the keratinocyte migration during wound repair, the mechanism of how CD9 expression is regulated remains unclear. Here, we observed the effect of hypoxia (2% O2) on CD9 expression and keratinocyte migration. CD9 expression was downregulated and keratinocyte migration was increased under hypoxic conditions. In addition, CD9 overexpression reversed hypoxia-induced cell migration. We also found that hypoxia activated the p38/MAPK pathway. SB203580, a p38/MAPK inhibitor, increased CD9 expression and inhibited keratinocyte migration under hypoxia, while MKK6 (Glu) overexpression decreased CD9 expression and promoted hypoxic keratinocyte migration. Our results demonstrate that hypoxia regulates CD9 expression and CD9-mediated keratinocyte migration via the p38/MAPK pathway.Keywords:
Hypoxia
Wound healing is an important issue that influences quality of life, and the need for products associated with wound healing is growing annually. New materials and therapies for skin wounds are being continuously researched and developed in order to increase treatment efficacy. Here, we show that the peptide AES16-2M comprised of five short amino acid sequences (REGRT) demonstrates efficacy in wound healing. AES16-2M exerted more effective healing than the control in an acute wound model, and tissue regeneration was similar to that of normal tissue in AES16-2M-treated skin. We found that the increase in re-epithelialization by AES16-2M early in wound development was due to migration of keratinocytes; a scratch assay using a human keratinocyte cell line (HaCaT) also demonstrated effective wound closure by AES16-2M. The migration of keratinocytes effected by AES16-2M was promoted through ERK phosphorylation and blocked with U0126, an ERK inhibitor. Moreover, AES16-2M treatment stimulated human dermal fibroblast (HDF) migration as well as keratinocyte. Taken together, these results suggest that AES16-2M can be an effective therapeutic agent for wound healing by promoting migration of keratinocytes and fibroblasts via ERK phosphorylation.
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Proliferation and migration of keratinocytes are vital processes for the successful epithelization specifically after wounding. MiR-221 has been identified to play a potential role in promoting wound regeneration by inducing blood vessel formation. However, little is known about the role of miR-221 in the keratinocyte proliferation and migration during wound healing. An in vivo mice wound-healing model was generated; the expression levels of miR-221 were assessed by qRT-PCR and fluorescence in situ hybridization. Initially, we found that miR-221 was upregulated in the proliferative phase of wound healing. Further, in an in vivo wound-healing mice model, targeted delivery of miR-221 mimics accelerated wound healing. Contrastingly, inhibition of miR-221 delayed healing. Additionally, we observed that overexpression of miR-221 promoted cell proliferation and migration, while inhibition of miR-221 had the opposite effects. Moreover, we identified SOCS7 as a direct target of miR-221 in keratinocytes and overexpression of SOCS7 reversed the effects of miR-221 in HaCaT keratinocytes. Finally, we identified that YB-1 regulates the expression of miR-221 in HaCaT keratinocytes. Overall, our experiments suggest that miR-221 is regulated by YB-1 in HaCaT keratinocytes and acts on SOCS7, thereby playing an important role in HaCaT keratinocyte proliferation and migration during wound healing.
HaCaT
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2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) is a widespread environmental contaminant, exposure to it eliciting a broad spectrum of deleterious pathophysiological effects. Since mitogen-activated protein kinase (MAPK) pathways appear to play an important role in both cell survival and the apoptotic process, we assessed the effects of TCDD on the activation of extracellular signal-regulated kinase (ERK), Jun-N-terminal kinase (JNK), p38 MAPKs and caspase-3 in RAW 264.7 cells. TCDD treatment induced a transient upshift in ERK activity, followed by a decline, but a concomitant dramatic activation of p38. However, TCDD did not cause any apparent change in the activity of JNK, though it induced an up-regulation in caspase-3 activity. These results demonstrate that the equilibrium between the ERK and p38 pathways is critical to the fate of the cells, and that the activation of p38, upstream of caspase, plays an important role in the apoptotic process. The data obtained in this study also suggests that TCDD activates the MAPK pathway via an arylhydrocarbon receptor (AhR)-independent mechanism in RAW 264.7 murine macrophages.
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The wound-healing assay is simple, inexpensive, and one of the earliest developed methods to study directional cell migration in vitro. This method mimics cell migration during wound healing in vivo. The basic steps involve creating a "wound" in a cell monolayer, capturing the images at the beginning and at regular intervals during cell migration to close the wound, and comparing the images to quantify the migration rate of the cells. It is particularly suitable for studies on the effects of cell-matrix and cell-cell interactions on cell migration. A variation of this method that tracks the migration of individual cells in the leading edge of the wound is also described in this chapter.
Matrix (chemical analysis)
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Wound healing is a complex event involving both cellular and molecular activities. Fibroblasts play an important role and are keys to wound healing through cell proliferation and migration. Honey has anti-microbial, anti-oxidant, anti-inflammatory properties, which are used for various benefits such as wound healing. This study aims to explore the effect of honey on the viability and migration ability of fibroblast cells. The method used is the viability test using the MTT Assay calculated by the formula for the percentage of cell viability. Migration test using In Vitro Wound Scratch Assay. The results of the migration test images were analyzed using ImageJ. Giving honey doses of 0.5% and 0.1% increased cell viability and migration after 24 hours of intervention. Decreased cell viability after 48 hours of treatment, but there was a difference in the meaning of honey 1%, 0.5%, and 0.1% compared to control. Honey doses of 1%, 0.5%, and 0.1% increased fibroblast cell migration compared to control. The lowest honey increases the viability and migration of fibroblasts so that the possibility of wound healing.
Keywords: Honey; Fibroblast Migration; Wound Scratch Assay; Wound Healing
Viability assay
Dermal fibroblast
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AIM:To investigate the apoptotic effect of cepharanthine(CEP)on neonatal rat cardiomyocytes (NRCMs)and the underlying mechanisms.METHODS:MTT assay was used to detect the viability of the cells.CEP-induced apoptosis in NRCMs was evaluated by Hoechst 33342 staining and the expression of activated caspase-3.The phosphorylation levels of mitogen-activated protein kinases(MAPKs),such as extracellular signal-regulated kinase (ERK),c-jun N-terminal kinase(JNK)and p38 MAPK,were examined by Western blotting.The specific inhibitors of ERK and p38 MAPK were applied for identifying the roles of the corresponding signal pathways in CEP-induced apoptosis of cardiomyocytes.RESULTS:CEP inhibited the viability of NRCMs in a dose-and time-dependent manners.Positive nuclear fragmentation and activated caspase-3 were found in CEP-treated NRCMs.The phosphorylation levels of ERK and p38 MAPK were significantly elevated in CEP-treated NRCMs,but the change of JNK was not obvious.SB203580, an inhibitor of p38 MAPK,significantly alleviated the apoptotic effect induced by CEP.However,PD98059,an inhibitor of ERK1/2,did not significantly reduce the apoptotic effect.CONCLUSION:p38 MAPK is involved in CEP-induced apoptosis in NRCMs.
MTT assay
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Wound healing is a dynamic and complex process of replacing missing or dead cell structures and tissue layers. The aim of this research is to discover biocompatible materials and drugs that can promote cell migration in the wound area and thus enhance desirable wound healing effects. In this paper, we report that PDMS nanogratings could accelerate the migration of epithelial cells along the grating axis, and the addition of Imatinib could further increase the epithelial cell wound healing speed to 1.6 times the speed of control cells. We also demonstrate that this migration is mediated by lamellipodia protrusion, and is Rac1-GTPase activity dependent. Lastly, we discuss the potential application and prospect of different nanostructured biomaterials for wound healing studies.
Lamellipodium
Pseudopodia
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Keratinocyte proliferation and migration are crucial steps during skin wound healing. The functional role of microRNAs (miRs) remains relatively unknown during this process. miR-93 levels have been reported to increase within 24 h of skin wound healing; however, whether miR-93-3p or miR-93-5p plays a specific role in wound healing is yet to be studied. In this study, with the use of an in vivo mouse skin wound-healing model, we demonstrate that miR-93-3p is significantly upregulated, whereas there is no change in the expression of miR-93-5p during skin wound healing. In HaCaT cells, miR-93-3p overexpression increased proliferation and migration of the cells, whereas miR-93-3p inhibition had the reverse effect. Additionally, it was evident that ZFP36L1 was a direct target of miR-93-3p in keratinocytes. Further, ZFP36L1 silencing mirrored the consequences observed during miR-93-3p overexpression on both proliferation and migration of keratinocytes. In addition, we demonstrate that zinc-finger X-linked (ZFX), as a target for ZFP36L1, is involved in the promotion of the miR-93-3p/ZFP36L1 axis in keratinocyte proliferation and migration. Ultimately, we found that mouse skin wound model treatment with anti-miR-93-3p delayed wound healing. Overall, our results show that miR-93-3p is a crucial regulator of skin wound healing that facilitates keratinocyte proliferation and migration through ZFP36L1/ZFX axis. Keratinocyte proliferation and migration are crucial steps during skin wound healing. The functional role of microRNAs (miRs) remains relatively unknown during this process. miR-93 levels have been reported to increase within 24 h of skin wound healing; however, whether miR-93-3p or miR-93-5p plays a specific role in wound healing is yet to be studied. In this study, with the use of an in vivo mouse skin wound-healing model, we demonstrate that miR-93-3p is significantly upregulated, whereas there is no change in the expression of miR-93-5p during skin wound healing. In HaCaT cells, miR-93-3p overexpression increased proliferation and migration of the cells, whereas miR-93-3p inhibition had the reverse effect. Additionally, it was evident that ZFP36L1 was a direct target of miR-93-3p in keratinocytes. Further, ZFP36L1 silencing mirrored the consequences observed during miR-93-3p overexpression on both proliferation and migration of keratinocytes. In addition, we demonstrate that zinc-finger X-linked (ZFX), as a target for ZFP36L1, is involved in the promotion of the miR-93-3p/ZFP36L1 axis in keratinocyte proliferation and migration. Ultimately, we found that mouse skin wound model treatment with anti-miR-93-3p delayed wound healing. Overall, our results show that miR-93-3p is a crucial regulator of skin wound healing that facilitates keratinocyte proliferation and migration through ZFP36L1/ZFX axis.
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