Selenoprotein P influences colitis-induced tumorigenesis by mediating stemness and oxidative damage
Caitlyn W. Barrett, … , Raymond F. Burk, Christopher S. Williams
Caitlyn W. Barrett, … , Raymond F. Burk, Christopher S. Williams
Published June 8, 2015
Citation Information: J Clin Invest. 2015;125(7):2646-2660. https://doi.org/10.1172/JCI76099.
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Research Article Oncology

Selenoprotein P influences colitis-induced tumorigenesis by mediating stemness and oxidative damage

Abstract

Patients with inflammatory bowel disease are at increased risk for colon cancer due to augmented oxidative stress. These patients also have compromised antioxidant defenses as the result of nutritional deficiencies. The micronutrient selenium is essential for selenoprotein production and is transported from the liver to target tissues via selenoprotein P (SEPP1). Target tissues also produce SEPP1, which is thought to possess an endogenous antioxidant function. Here, we have shown that mice with Sepp1 haploinsufficiency or mutations that disrupt either the selenium transport or the enzymatic domain of SEPP1 exhibit increased colitis-associated carcinogenesis as the result of increased genomic instability and promotion of a protumorigenic microenvironment. Reduced SEPP1 function markedly increased M2-polarized macrophages, indicating a role for SEPP1 in macrophage polarization and immune function. Furthermore, compared with partial loss, complete loss of SEPP1 substantially reduced tumor burden, in part due to increased apoptosis. Using intestinal organoid cultures, we found that, compared with those from WT animals, Sepp1-null cultures display increased stem cell characteristics that are coupled with increased ROS production, DNA damage, proliferation, decreased cell survival, and modulation of WNT signaling in response to H2O2-mediated oxidative stress. Together, these data demonstrate that SEPP1 influences inflammatory tumorigenesis by affecting genomic stability, the inflammatory microenvironment, and epithelial stem cell functions.

Authors

Caitlyn W. Barrett, Vishruth K. Reddy, Sarah P. Short, Amy K. Motley, Mary K. Lintel, Amber M. Bradley, Tanner Freeman, Jefferson Vallance, Wei Ning, Bobak Parang, Shenika V. Poindexter, Barbara Fingleton, Xi Chen, Mary K. Washington, Keith T. Wilson, Noah F. Shroyer, Kristina E. Hill, Raymond F. Burk, Christopher S. Williams

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Figure 7

Sepp1–/– enteroids display increased stem cell characteristics as well as ROS production, proliferation, and decreased survival after oxidative stress.

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Sepp1–/– enteroids display increased stem cell characteristics as well ...
(A) Sepp1 mRNA expression in tissue isolated from WT mice (n = 3 per group). Fold change expression normalized to Gapdh and relative to colonic Sepp1 expression. ***P < 0.001, 1-way ANOVA, Newman-Keuls multiple comparison test. (B) Percentage of surviving enteroids 1 day after plating, percentage of branching enteroids and stem spheroids counted 3 days after plating, and average number of branches per branching enteroid at 4 days after plating (n = 4 per group per experiment). *P < 0.05, **P < 0.01, ***P < 0.001, 2-tailed unpaired t test. (C) ROS quantification by carboxy-H2DCFDA staining intensity, as measured 2 hours after treatment with H2O2. Fold change in intensity relative to WT enteroids treated with 0 μM H2O2 (n = 4 per group). Representative images of the single carboxy-H2DCFDA channel and merged carboxy-H2DCFDA and TO-PRO3 channels in WT and Sepp1–/– enteroids treated with either 0 μM or 800 μM H2O2 (original magnification, ×100). *P < 0.05, 1-way ANOVA, Newman-Keuls multiple comparison test. (D) Proliferation, as determined by EdU+ cells per crypt area within WT and Sepp1–/– enteroids after 2 hours of treatment with either 0 μM or 800 μM H2O2 (n = 4 per group with analysis of 10 enteroids per genotype) and representative images of EdU staining in WT and Sepp1–/– enteroids after treatment with either 0 μM or 800 μM H2O2 (original magnification, ×100). *P < 0.05, **P < 0.01, 1-way ANOVA, Newman-Keuls multiple comparison test. (E) Survival curves for WT, Sepp1+/–, and Sepp1–/– enteroids after daily treatment with 400 μM H2O2.