Phytochemicals as new therapeutic candidates simultaneously stimulate proliferation and counteract senescence of stem cells.

Mesenchymal stem cells (MSCs) are promising candidates for regenerative therapy. However, the research and clinical application of MSCs are greatly hindered by the limited cells proliferation and replicative senescence. Therapeutic agents that can both enhance the proliferative ability and decrease the replicative senescence of MSCs are greatly needed, however, not been reported yet. Herein, for the first time, we identified 11 natural compounds from medicinal plants with both excellent proliferative and anti-senescence abilities in MSCs. The qPCR analysis indicated underlying mechanisms associated with fibroblast growth factor, transforming growth factor, Wnt/ß-catenin and leukemia-induced factor in proliferation; the reactive oxygen species production, mitochondrial dysfunction autophagy and proteostasis are involved in cells senescence-related mechanism. Phytochemicals are demonstrated as novel therapeutic candidates with promising effects in both stimulating proliferation and retarding replicative senescence of stem cells with high safety.

The crude ethanol extract of Periplaneta americana L. stimulates wound healing in vitro & in vivo.

Periplaneta americana L. is a Traditional Chinese Medicine that has been used in clinic treatment of various diseases for a long history. However, the therapeutic potential and the underlying mechanism of Periplaneta americana L. in the skin wound therapy was not investigated comprehensively yet. This study aims to investigate the influence of the crude ethanol extract of PAL in the different wound stages including: (1) the migration and chemotaxis to skin cells in the first stage; (2) proliferation and cells cycle of skin cells in the second stage; (3) remodeling effect and secretion of growth factors, collagens in the third stage; (4) as well as the influence in the blood vessels regeneration in the late stage. The crude ethanol extract of PAL was shown to (1) promote the keratinocytes proliferation and regulate the cells cycle of fibroblasts significantly; (2) stimulate the migration of keratinocytes and fibroblasts obviously; (3) enhance the EGF and VEGF secretion both in vitro & in vivo; (4) accelerate the wound healing, collagen synthesis and angiogenesis. The crude ethanol extract of KFX was shown a promising therapeutic agent for the wound therapy with great efficacy to accelerate the wound healing with improved quality.

Periplaneta Americana L. as a novel therapeutics accelerates wound repair and regeneration.

Kangfuxin (KFX) is the ethanol extract of Periplaneta Americana L., which has been widely used in Traditional Chinese Medicine for the treatment of injury in clinic with a long history. However, the biological influence of KFX in the different wound stages was not investigated comprehensively yet. This study aims to investigate the influence of KFX in the various wound healing activities with cellular and animal models, including the influence of KFX in 1) proliferation and cells cycle of kerationcytes and fibroblasts; 2) migration and chemotaxis of these skin cells; 3) secretion of EGF and VEGF; 4) the healing rate; 5) synthesis and deposition of different types of collagen; 6) as well as the pro-angiogenesis effect. KFX was shown to/for 1) promote the kerationcytes proliferation and regulate the cells cycle of skin fibroblasts significantly; 2) obviously stimulate the migration of kerationcytes and chemotaxis of fibroblasts; 3) the trend to promote EGF and VEGF secretion both in vitro & in vivo; 4) accelerate the wound closure, collagen synthesis and angiogenesis. KFX was demonstrated to accelerate wound healing and improve the healing quality by multiple regulation. Results of this study provide the comprehensive evidence for the application of KFX as a novel therapeutics for wound treatment.