FGF-2 enhances intestinal stem cell survival and its expression is induced after radiation injury

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FGF-2 enhances intestinal stem cell survival and its expression is induced after radiation injury

Courtney W. Houchen, Robert J. George, Mark A. Sturmoski, and Steven M. Cohn

Department of Medicine, Washington University School of Medicine, St. Louis, Missouri 63110

Fibroblast growth factors (FGFs) have mitogenic activity toward a wide variety of cells of mesenchymal, neuronal, and epithelialorigin and regulate events in normal embryonic development, angiogenesis,wound repair, and neoplasia. FGF-2 is expressed in many normaladult tissues and can regulate migration and replication of intestinalepithelial cells in culture. However, little is known about theeffects of FGF-2 on intestinal epithelial stem cells during eithernormal epithelial renewal or regeneration of a functional epitheliumafter injury. In this study, we investigated the expression ofFGF-2 in the mouse small intestine after irradiation and determinedthe effect of exogenous FGF-2 on crypt stem cell survival afterradiation injury. Expression of FGF-2 mRNA and protein began toincrease at 12 h after $gamma$ -irradiation, and peak levels were observedfrom 48 to 120 h after irradiation. At all times after irradiation,the higher molecular mass isoform (~24 kDa) of FGF-2 was the predominantform expressed in the small intestine. Immunohistochemical analysisof FGF-2 expression after radiation injury demonstrated that FGF-2was predominantly found in the mesenchyme surrounding regeneratingcrypts. Exogenous recombinant human FGF-2 (rhFGF-2) markedly enhancedcrypt stem cell survival when given before irradiation. We concludethat expression of FGF-2 is induced by radiation injury and thatrhFGF-2 can enhance crypt stem cell survival after subsequentinjury.

ionizing radiation; basic fibroblast growth factors; injury repair

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