Isolation and Characterization of Intestinal Stem Cells Based on Surface Marker Combinations and Colony-formation Assay

Overview

Journal Gastroenterology

Specialty Gastroenterology

Date 2013 May 7

PMID 23644405

Citations 127

Authors

Fengchao Wang

David Scoville

Xi C He

Maxime M Mahe

Andrew Box

John M Perry

Nicholas R Smith

Nan Ye Lei

Paige S Davies

Megan K Fuller

Jeffrey S Haug

Melainia McClain

Adam D Gracz

Sheng Ding

Matthias Stelzner

James C Y Dunn

Scott T Magness

Melissa H Wong

Martin G Martin

Michael Helmrath

Linheng Li

Affiliations

Soon will be listed here.

Abstract

Background & Aims: Identification of intestinal stem cells (ISCs) has relied heavily on the use of transgenic reporters in mice, but this approach is limited by mosaic expression patterns and difficult to directly apply to human tissues. We sought to identify reliable surface markers of ISCs and establish a robust functional assay to characterize ISCs from mouse and human tissues.

Methods: We used immunohistochemistry, real-time reverse-transcription polymerase chain reaction, and fluorescence-activated cell sorting (FACS) to analyze intestinal epithelial cells isolated from mouse and human intestinal tissues. We compared different combinations of surface markers among ISCs isolated based on expression of Lgr5-green fluorescent protein. We developed a culture protocol to facilitate the identification of functional ISCs from mice and then tested the assay with human intestinal crypts and putative ISCs.

Results: CD44(+)CD24(lo)CD166(+) cells, isolated by FACS from mouse small intestine and colon, expressed high levels of stem cell-associated genes. Transit-amplifying cells and progenitor cells were then excluded based on expression of GRP78 or c-Kit. CD44(+)CD24(lo)CD166(+) GRP78(lo/-) putative stem cells from mouse small intestine included Lgr5-GFP(hi) and Lgr5-GFP(med/lo) cells. Incubation of these cells with the GSK inhibitor CHIR99021 and the E-cadherin stabilizer Thiazovivin resulted in colony formation by 25% to 30% of single-sorted ISCs.

Conclusions: We developed a culture protocol to identify putative ISCs from mouse and human tissues based on cell surface markers. CD44(+)CD24(lo)CD166(+), GRP78(lo/-), and c-Kit(-) facilitated identification of putative stem cells from the mouse small intestine and colon, respectively. CD44(+)CD24(-/lo)CD166(+) also identified putative human ISCs. These findings will facilitate functional studies of mouse and human ISCs.

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