Abstract
It is urgent to seek new potential targets for the prevention or relief of gastrointestinal syndrome in clinical radiation therapy for cancers. Vitamin D, mediated through the vitamin D receptor (VDR), has been identified as a protective nutrient against ionizing radiation (IR)-induced damage. This study investigated whether VDR could inhibit IR-induced intestinal injury and explored underlying mechanism. We first found that vitamin D induced VDR expression and inhibited IR-induced DNA damage and apoptosis in vitro. VDR was highly expressed in intestinal crypts and was critical for crypt stem/progenitor cell proliferation under physiological conditions. Next, VDR-deficient mice exposed to IR significantly increased DNA damage and crypt stem/progenitor cell apoptosis, leading to impaired intestinal regeneration as well as shorter survival time. Furthermore, VDR deficiency activated the Pmaip1-mediated apoptotic pathway of intestinal crypt stem/progenitor cells in IR-treated mice, whereas inhibition of Pmaip1 expression by siRNA transfection protected against IR-induced cell apoptosis. Therefore, VDR protects against IR-induced intestinal injury through inhibition of crypt stem/progenitor cell apoptosis via the Pmaip1-mediated pathway. Our results reveal the importance of VDR level in clinical radiation therapy, and targeting VDR may be a useful strategy for treatment of gastrointestinal syndrome.
Highlights
Gastrointestinal (GI) syndrome, with 60–80% incidence occurrence in radiation therapy for abdominal or pelvic cancers, is a lethal disorder and an obstacle to cancer cure [1]
These results indicated that vitamin D receptor (VDR) loss impaired intestinal structure and crypt stem/progenitor cell proliferation rather than induced apoptosis under physiological conditions
The present study indicated that VDR could protect against ionizing radiation (IR)-intestinal injury and prolong the survival time of mice via inhibition of crypt stem/progenitor cell apoptosis through modulation of Pmaip1 activity
Summary
Gastrointestinal (GI) syndrome, with 60–80% incidence occurrence in radiation therapy for abdominal or pelvic cancers, is a lethal disorder and an obstacle to cancer cure [1]. Overexpression of VDR in colorectal epithelium could alleviate colitis [16] These findings suggest that VDR exerts protective effect against inflammation-induced colonic injury and may inhibit IR-induced intestinal injury. Inhibition of intestinal stem/progenitor cell apoptosis has become a new target for reducing IR-induced intestinal injury. VD/VDR can inhibit colorectal epithelial cell apoptosis to protect inflammation-induced colonic injury [15,25]. We hypothesize that VDR can attenuate intestinal stem/progenitor cell apoptosis to further protect against IR-induced intestinal injury. We employed VDR knockout (KO) mice to assess the effect of VDR on apoptosis of intestinal crypt stem/progenitor cells under physiological conditions and IR exposure. The mechanism of VDR inhibiting IR-induced intestinal crypt stem/progenitor cell apoptosis was explored
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