Abstract
Radiation-induced intestinal toxicity is common among cancer patients after radiotherapy. Endothelial cell dysfunction is believed to be a critical contributor to radiation tissue injury in the intestine. Geranylgeranylacetone (GGA) has been used to treat peptic ulcers and gastritis. However, the protective capacity of GGA against radiation-induced intestinal injury has not been addressed. Therefore, we investigated whether GGA affects intestinal damage in mice and vascular endothelial cell damage in vitro. GGA treatment significantly ameliorated intestinal injury, as evident by intestinal crypt survival, villi length and the subsequently prolonged survival time of irradiated mice. In addition, intestinal microvessels were also significantly preserved in GGA-treated mice. To clarify the effect of GGA on endothelial cell survival, we examined endothelial function by evaluating cell proliferation, tube formation, wound healing, invasion and migration in the presence or absence of GGA after irradiation. Our findings showed that GGA plays a role in maintaining vascular cell function; however, it does not protect against radiation-induced vascular cell death. GGA promoted endothelial function during radiation injury by preventing the loss of VEGF/VEGFR1/eNOS signaling and by down-regulating TNFα expression in endothelial cells. This finding indicates the potential impact of GGA as a therapeutic agent in mitigating radiation-induced intestinal damage.
Highlights
More than half of cancer patients are treated with radiotherapy, but this treatment can damage the surrounding normal tissues
Radiation therapy prolongs patient survival, the adverse effects of radiation therapy diminish their quality of life; there is a lack of effective biological interventions for normal tissue damage [1]
To assess the effects of GGA on intestinal endothelial cells, we investigated microvessel density in the lamina propria by PECAM-1 immunohistochemical staining
Summary
More than half of cancer patients are treated with radiotherapy, but this treatment can damage the surrounding normal tissues. Radiation-induced intestinal toxicity remains a problem in abdominopelvic cancer treatment [2]. Radiation-induced damage to vascular endothelial cells, a monolayer of endothelial cells lining all blood vessels, plays an important role in the pathogenesis of early and delayed radiation-induced intestinal toxicity [6]. Experimental evidence demonstrates that safeguarding endothelial cells from radiation injury protects intestinal epithelium [7,8], indicating the potential role of endothelial cells in the pathogenesis of intestinal toxicity [1,9]. Limiting early endothelial radiation damage may lower the risk of acute and delayed toxicity. We investigated whether GGA protects against radiation-induced intestinal injury by modulating endothelial cell function
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