HOPX<sup>+</sup> injury-resistant intestinal stem cells drive epithelial recovery after severe intestinal ischemia

Stewart, Amy Stieler; Schaaf, Cecilia Renee; Luff, Jennifer A.; Freund, John M.; Becker, Thomas C.; Tufts, Sara R.; Robertson, James B.; Gonzalez, Liara M.

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American Physiological Society, American Journal of Physiology - Gastrointestinal and Liver Physiology, 5(321), p. G588-G602, 2021

DOI: 10.1152/ajpgi.00165.2021

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HOPX<sup>+</sup> injury-resistant intestinal stem cells drive epithelial recovery after severe intestinal ischemia

Journal article published in 2021 by Amy Stieler Stewart, Cecilia Renee Schaaf, Jennifer A. Luff, John M. Freund, Thomas C. Becker, Sara R. Tufts, James B. Robertson

, Liara M. Gonzalez

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Abstract

This paper supports that rISCs are resistant to ischemic injury and likely an important source of cellular renewal following near-complete epithelial loss. Furthermore, we have evidence that HOPX controls ISC activity state and may be a critical signaling pathway during ISC-mediated repair. Finally, we use multiple novel methods to evaluate ISCs in a translationally relevant large animal model of severe intestinal injury and provide evidence for the potential role of rISCs as therapeutic targets.

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HOPX<sup>+</sup> injury-resistant intestinal stem cells drive epithelial recovery after severe intestinal ischemia

Abstract