Combination treatment of podophyllotoxin and rutin promotes mouse Lgr5 +  ve intestinal stem cells survival against lethal radiation injury through Wnt signaling

AbstractIt has been well established that radiation-induced gastrointestinal injury is manifested through loss of intestinal crypt stem cells and disruption of the mucosal layers, resulting in diarrhoea, weight loss, electrolyte imbalance, infection and mortality. Podophyllotoxin and rutin in combination (G-003M) has been reported to regulate endogenous cellular antioxidant defense systems and inflammatory response. However, the mechanism by which G-003M ameliorates radiation-induced intestinal stem cell (ISC) injury remains unclear. Here, we hypothesize the radioprotective potential of G-003M would amplify the intestinal crypt stem cells through upregulation of Wnt/ β-catenin signaling and accelerate the reconstitution of the irradiated intestine. Our results showed significant functional and structural intestine regeneration in irradiated animals following G-003M treatment which resulted in improved animal survival. Immunohistochemical examination revealed an enhancement in Lgr5+  ve crypt stem cells. Increased β-catenin nuclear translocation resulted in upregulation of β-catenin target genes that supported ISC renewal and expansion in G-003M-treated mice, as compared to IR-treated mice. However, G-003M could not rescue the Wnt knockdown cohorts (XAV939 treated) which exhibited greater incidence of intes tinal apoptosis, DNA damage and crypt depopulation upon radiation exposure. These findings suggest the involvement of Wnt pathway during G-003M mediated amelioration o...
Source: Apoptosis - Category: Molecular Biology Source Type: research