Disruption of the crypt niche promotes outgrowth of mutated colorectal tumor stem cells
Stefan Klingler, Kuo-Shun Hsu, Guoqiang Hua, Maria Laura Martin, Mohammad Adileh, Timour Baslan, Zhigang Zhang, Philip B. Paty, Zvi Fuks, Anthony M.C. Brown, Richard Kolesnick
Stefan Klingler, Kuo-Shun Hsu, Guoqiang Hua, Maria Laura Martin, Mohammad Adileh, Timour Baslan, Zhigang Zhang, Philip B. Paty, Zvi Fuks, Anthony M.C. Brown, Richard Kolesnick
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Research Article Oncology Stem cells

Disruption of the crypt niche promotes outgrowth of mutated colorectal tumor stem cells

Abstract

Recent data establish a logarithmic expansion of leucine rich repeat containing G protein coupled receptor 5–positive (Lgr5+) colonic epithelial stem cells (CESCs) in human colorectal cancer (CRC). Complementary studies using the murine 2-stage azoxymethane–dextran sulfate sodium (AOM-DSS) colitis-associated tumor model indicate early acquisition of Wnt pathway mutations drives CESC expansion during adenoma progression. Here, subdivision of the AOM-DSS model into in vivo and in vitro stages revealed DSS induced physical separation of CESCs from stem cell niche cells and basal lamina, a source of Wnt signals, within hours, disabling the stem cell program. While AOM delivery in vivo under non-adenoma-forming conditions yielded phenotypically normal mucosa and organoids derived thereof, niche injury ex vivo by progressive DSS dose escalation facilitated outgrowth of Wnt-independent dysplastic organoids. These organoids contained 10-fold increased Lgr5+ CESCs with gain-of-function Wnt mutations orthologous to human CRC driver mutations. We posit CRC originates by niche injury–induced outgrowth of normally suppressed mutated stem cells, consistent with models of adaptive oncogenesis.

Authors

Stefan Klingler, Kuo-Shun Hsu, Guoqiang Hua, Maria Laura Martin, Mohammad Adileh, Timour Baslan, Zhigang Zhang, Philip B. Paty, Zvi Fuks, Anthony M.C. Brown, Richard Kolesnick

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Figure 7

DSS disrupts localization of the tight junctional protein ZO-1 in vivo in the distal colon and in vitro in organoids derived thereof.

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DSS disrupts localization of the tight junctional protein ZO-1 in vivo i...
(A) The left panel shows representative images of the impact of DSS on ZO-1 tight junctional localization in distal colonic specimens isolated from untreated control and 16-hour DSS-treated mice. Scale bar = 10 μm. The right panel quantifies (mean ± SD) the effect of 1% DSS on ZO-1 distribution evaluating 10–15 crypts/mouse in 3 mice/group. P < 0.002 (***), 2-tailed Student’s t test. (B) The left panel shows DSS (3 μg/mL) treatment of distal colon–derived LI2 organoids causes apical loss of ZO-1 over time (0–48 hours). Scale bar = 20 μm. The right panel quantifies this effect (mean ± SEM) showing significant difference in loss of ZO-1 between 0-hour untreated controls and 36-hour and 48-hour DSS treatment. Total n = 31 organoids. P < 0.02 (*), P < 0.01 (**), 2-tailed Student’s t test with Bonferroni’s correction.