BMP-driven NRF2 activation in esophageal basal cell differentiation and eosinophilic esophagitis
Ming Jiang, … , Xiaopeng Lan, Jianwen Que
Ming Jiang, … , Xiaopeng Lan, Jianwen Que
Published March 16, 2015
Citation Information: J Clin Invest. 2015;125(4):1557-1568. https://doi.org/10.1172/JCI78850.
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Research Article Gastroenterology

BMP-driven NRF2 activation in esophageal basal cell differentiation and eosinophilic esophagitis

Abstract

Tissue homeostasis requires balanced self-renewal and differentiation of stem/progenitor cells, especially in tissues that are constantly replenished like the esophagus. Disruption of this balance is associated with pathological conditions, including eosinophilic esophagitis (EoE), in which basal progenitor cells become hyperplastic upon proinflammatory stimulation. However, how basal cells respond to the inflammatory environment at the molecular level remains undetermined. We previously reported that the bone morphogenetic protein (BMP) signaling pathway is critical for epithelial morphogenesis in the embryonic esophagus. Here, we address how this pathway regulates tissue homeostasis and EoE development in the adult esophagus. BMP signaling was specifically activated in differentiated squamous epithelium, but not in basal progenitor cells, which express the BMP antagonist follistatin. Previous reports indicate that increased BMP activity promotes Barrett’s intestinal differentiation; however, in mice, basal progenitor cell–specific expression of constitutively active BMP promoted squamous differentiation. Moreover, BMP activation increased intracellular ROS levels, initiating an NRF2-mediated oxidative response during basal progenitor cell differentiation. In both a mouse EoE model and human biopsies, reduced squamous differentiation was associated with high levels of follistatin and disrupted BMP/NRF2 pathways. We therefore propose a model in which normal squamous differentiation of basal progenitor cells is mediated by BMP-driven NRF2 activation and basal cell hyperplasia is promoted by disruption of BMP signaling in EoE.

Authors

Ming Jiang, Wei-Yao Ku, Zhongren Zhou, Evan S. Dellon, Gary W. Falk, Hiroshi Nakagawa, Mei-Lun Wang, Kuancan Liu, Jun Wang, David A. Katzka, Jeffrey H. Peters, Xiaopeng Lan, Jianwen Que

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Figure 5

NRF2 signaling is required for the squamous differentiation of basal progenitor cells.

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NRF2 signaling is required for the squamous differentiation of basal pro...
(A) Overexpression of NRF2 reduced proliferation in EPC2 cells (n = 3). (B) NRF2 overexpression enhanced BMP4-induced squamous differentiation of basal progenitors. By contrast, NRF2 inhibition through KEAP1 overexpression reduced squamous differentiation in BMP4-treated EPC2 cells. NRF2 phosphorylation levels were used as indicators of NRF2 signaling. Total NRF2 levels indicated NRF2 overexpression and inhibition by KEAP1 overexpression. (C) Knockdown of NRF2 inhibited BMP4-induced squamous differentiation of basal progenitor cells as indicated by reduced transcript levels of involucrin and loricrin (n = 3). Cells without BMP4 treatment were used as controls. (D) Attenuation of intracellular ROS levels with the antioxidant reagent NAC inhibited squamous differentiation in the presence of BMP4. (E) H2O2 treatment increased NRF2 signaling and promoted squamous differentiation in a concentration-dependent manner. EPC2 cells treated with BMP4 (10 ng/ml) were used as positive controls. Blot images were derived from samples run on parallel gels. Data represent the mean ± SEM. *P < 0.05, **P < 0.01, and ***P < 0.001 by 2-way ANOVA (C).