The intestinal epithelium is rapidly renewed every 3-5 days from both active cycling stem cells, as well as, more quiescent stem cells. The radiation-induced gastrointestinal syndrome (RIGS) results from dose-dependent, cytocidal effects of radiation on intestinal stem cells. Preliminary work from our group has demonstrated using inducible Cre-dependent lineage tracing that Keratin-19 (Krt19) labels intestinal stem cells distinct from Lgr5+ CBCs and located above the +4 region. In contrast to Lgr5+ cells, Krt19+ stem cells are radioresistant and can regenerate the small intestine following 12Gy radiation. In addition, data from our group has shown that both mesenchymal cells and nerves are important in modulating stem cells and contributing to regeneration. Thus, it is our hypothesis that the +4 intestinal stem cell (ISC) marked by Krt19 is critical to the response to radiation injury, and maybe regulated by stromal factors distinct from that for Lgr5+ stem cells. We will explore this hypothesis through three specific aims. (1) What is the hierarchical relationship and characteristics that distinguish Lgr5+ and Krt19+ stem cells. We will use in vivo lineage tracing, in vitro organoids and gene expression studies to explore these distinct stem cell populations. (2) What is the role of neural factors in ISC expansion in response to radiation injury? We will use murine models with altered serotonin and cholinergic signaling to assess the response of ISCs to radiation injury. (3) How do intestinal growth factors regulate ISC regeneration in mice after radiation? We will examine defined intestinal growth factors (such as R-spondin1 and KGF), as well as other candidate niche factors, in the protection and mitigation of RIGS. There are currently no approved medical countermeasures to alleviate the RIGS. Overall, this proposal will investigate the hierarchy, cell fate, and role in regeneration of various ISC populations post radiation.

Public Health Relevance

In this study, we plan to study the role of Krt19+ versus Lgr5+ stem cells in the radiation- induced gastrointestinal syndrome (RIGS) that results from cytocidal effects of radiation on intestinal stem cells. We have demonstrated differences in radiosensitivities among these two stem cell populations, and hypothesize that different neural and/or stromal niche factors regulate the two stem cell pools in distinct manners. Thus, we aim to characterize Krt19+ versus Lgr5+ stem cells in the epithelial radiation response and identify novel therapeutic agents for radiation-induced gastrointestinal injury.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project--Cooperative Agreements (U01)
Project #
5U01DK103155-04
Application #
9333343
Study Section
Special Emphasis Panel (ZDK1)
Program Officer
Greenwel, Patricia
Project Start
2014-09-15
Project End
2019-08-31
Budget Start
2017-09-01
Budget End
2018-08-31
Support Year
4
Fiscal Year
2017
Total Cost
Indirect Cost
Name
Columbia University (N.Y.)
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
621889815
City
New York
State
NY
Country
United States
Zip Code
10032
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Saha, Subhrajit; Aranda, Evelyn; Hayakawa, Yoku et al. (2016) Macrophage-derived extracellular vesicle-packaged WNTs rescue intestinal stem cells and enhance survival after radiation injury. Nat Commun 7:13096
Kulkarni, Shilpa; Wang, Timothy C; Guha, Chandan (2016) Stromal Progenitor Cells in Mitigation of Non-Hematopoietic Radiation Injuries. Curr Pathobiol Rep 4:221-230
Asfaha, Samuel; Hayakawa, Yoku; Muley, Ashlesha et al. (2015) Krt19(+)/Lgr5(-) Cells Are Radioresistant Cancer-Initiating Stem Cells in the Colon and Intestine. Cell Stem Cell 16:627-38