Abnormal functional and morphological regulation of the gastric mucosa in histamine H2 receptor–deficient mice
Takashi Kobayashi, … , Susumu Okabe, Takeshi Watanabe
Takashi Kobayashi, … , Susumu Okabe, Takeshi Watanabe
Published June 15, 2000
Citation Information: J Clin Invest. 2000;105(12):1741-1749. https://doi.org/10.1172/JCI9441.
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Article

Abnormal functional and morphological regulation of the gastric mucosa in histamine H2 receptor–deficient mice

Abstract

To clarify the physiological roles of histamine H2 receptor (H2R), we have generated histamine H2R-deficient mice by gene targeting. Homozygous mutant mice were viable and fertile without apparent abnormalities and, unexpectedly, showed normal basal gastric pH. However, the H2R-deficient mice exhibited a marked hypertrophy with enlarged folds in gastric mucosa and an elevated serum gastrin level. Immunohistochemical analysis revealed increased numbers of parietal and enterochromaffin-like (ECL) cells. Despite this hypertrophy, parietal cells in mutant mice were significantly smaller than in wild-type mice and contained enlarged secretory canaliculi with a lower density of microvilli and few typical tubulovesicles in the narrow cytoplasm. Induction of gastric acid secretion by histamine or gastrin was completely abolished in the mutant mice, but carbachol still induced acid secretion. The present study clearly demonstrates that H2R-mediated signal(s) are required for cellular homeostasis of the gastric mucosa and normally formed secretory membranes in parietal cells. Moreover, impaired acid secretion due to the absence of H2R could be overcome by the signals from cholinergic receptors.

Authors

Takashi Kobayashi, Shunsuke Tonai, Yasunobu Ishihara, Ritsuko Koga, Susumu Okabe, Takeshi Watanabe

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Hypertrophy of oxyntic mucosa in H2R-deficient mice. Comparison of the g...
Hypertrophy of oxyntic mucosa in H2R-deficient mice. Comparison of the gross aspects of the glandular area in the corpus region immunostained with anti–H+,K+-ATPase antibody (specific for parietal cell) of a 16-week-old H2R–/– mouse (a and b) and a wild-type mouse (c and d). Whole aspects of corpus region (a and c) and higher magnifications of areas boxed (b and d) are shown. Sections were cut 4 μm thick along the greater curvature. The thickness of oxyntic mucosa was remarkably increased in H2R–/– mice with formation of enlarged gastric folds. The change in mucosal thickness was the most prominent in the isthmus and neck region. Note that H+,K+-ATPase–positive parietal cells (brown) were located throughout the hypertrophic oxyntic mucosa with increased numbers of the cells in H2R–/– mice. (a and c, bar = 0.5 mm; b and d, bar = 100 μm.)