Regulation of the double-stranded RNA response through ADAR1 licenses metaplastic reprogramming in gastric epithelium
José B. Sáenz, Nancy Vargas, Charles J. Cho, Jason C. Mills
José B. Sáenz, Nancy Vargas, Charles J. Cho, Jason C. Mills
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Research Article Cell biology Gastroenterology

Regulation of the double-stranded RNA response through ADAR1 licenses metaplastic reprogramming in gastric epithelium

Abstract

Cells recognize both foreign and host-derived double-stranded RNA (dsRNA) via a signaling pathway that is usually studied in the context of viral infection. It has become increasingly clear that the sensing and handling of endogenous dsRNA is also critical for cellular differentiation and development. The adenosine RNA deaminase, ADAR1, has been implicated as a central regulator of the dsRNA response, but how regulation of the dsRNA response might mediate cell fate during injury and whether such signaling is cell intrinsic remain unclear. Here, we show that the ADAR1-mediated response to dsRNA was dramatically induced in 2 distinct injury models of gastric metaplasia. Mouse organoid and in vivo genetic models showed that ADAR1 coordinated a cell-intrinsic, epithelium-autonomous, and interferon signaling–independent dsRNA response. In addition, dsRNA accumulated within a differentiated epithelial population (chief cells) in mouse and human stomachs as these cells reprogrammed to a proliferative, reparative (metaplastic) state. Finally, chief cells required ADAR1 to reenter the cell cycle during metaplasia. Thus, cell-intrinsic ADAR1 signaling is critical for the induction of metaplasia. Because metaplasia increases cancer risk, these findings support roles for ADAR1 and the response to dsRNA in oncogenesis.

Authors

José B. Sáenz, Nancy Vargas, Charles J. Cho, Jason C. Mills

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Figure 4

ADAR1 is activated within metaplastic gastric epithelium.

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ADAR1 is activated within metaplastic gastric epithelium. (A and B) The ...
(A and B) The IFN-inducible (p150) isoform of ADAR1 is upregulated in metaplastic corpus tissue following either HD-Tam treatment (A) or chronic H. pylori infection (B). Each lane of the Western blot shows gastric corpus tissue from a representative mouse from 3 independent experiments. (C) Isolated ADAR1 (p150) staining (left) and merged images (right) are shown. A metaplastic gland base from an H. pylori–infected mouse stomach with increased cytoplasmic ADAR1 (p150) expression is shown (bottom right panel). Scale bars, 20 μm, and 5 μm (bottom right panel). Neck cells are highlighted by GSII staining (green). (D) Adar1 was deleted from murine gastric epithelium by transducing gastroids from Adar1fl/fl mice with an adenoviral Cre vector (Ad-Cre). Fold change expression denotes transcript levels, relative to Ad-Cre–transduced gastroids derived from Adar1fl/+ mice, from qRT-PCR using a TaqMan array of dsRNA signaling genes. The means (±SD) from 4–5 independent experiments are shown. Each data point represents gastroid-derived RNA from an individual mouse. Dotted line denotes 2-fold cutoff. (E) Representative Western blot of lysates from Adar1fl/+ or Adar1fl/fl gastroids, either untransduced or transduced with Ad-Cre. (F) ADAR1 expression in a representative uninflamed gastric corpus biopsy. (G) Representative gastric corpus biopsy from a patient with chronic gastritis and little to no SPEM. Cytoplasmic ADAR1 staining (brown) can be seen in epithelial cells within inflamed gland bases that have not yet progressed to SPEM. (H) Representative gastric corpus biopsy from a patient with chronic atrophic gastritis highlighting a hybrid region. Gland bases with early (*) or more advanced SPEM (***) are shown. (I) Representative gastric corpus biopsy from a patient with diffuse SPEM. Some of the SPEM gland bases are marked (*). Scale bars, 100 μm (F and I), 50 μm (G and H). GSII, Griffonia simplicifolia lectin.