Histamine Signaling Is Essential for Tissue Macrophage Differentiation and Suppression of Bacterial Overgrowth in the Stomach.

BACKGROUND & AIMS: Histamine in the stomach traditionally is considered to regulate acid secretion but also has been reported to participate in macrophage differentiation, which plays an important role in tissue homeostasis. Therefore, this study aimed to uncover the precise role of histamine in mediating macrophage differentiation and in maintaining stomach homeostasis.

METHODS

Here, we expand on this role using histidine decarboxylase knockout (Hdc) mice with hypertrophic gastropathy. In-depth in vivo studies were performed in Hdc mice, germ-free Hdc mice, and bone-marrow-transplanted Hdc mice. The stomach macrophage populations and function were characterized by flow cytometry. To identify stomach macrophages and find the new macrophage population, we performed single-cell RNA sequencing analysis on Hdc and Hdc stomach tissues.

RESULTS

Single-cell RNA sequencing and flow cytometry of the stomach cells of Hdc mice showed alterations in the ratios of 3 distinct tissue macrophage populations (F4/80Il1b, F4/80CD93, and F4/80MHC class IICD74). Tissue macrophages of the stomachs of Hdc mice showed impaired phagocytic activity, increasing the bacterial burden of the stomach and attenuating hypertrophic gastropathy in germ-free Hdc mice. The transplantation of bone marrow cells of Hdc mice to Hdc mice recovered the normal differentiation of stomach macrophages and relieved the hypertrophic gastropathy of Hdc mice.

CONCLUSIONS

This study showed the importance of histamine signaling in tissue macrophage differentiation and maintenance of gastric homeostasis through the suppression of bacterial overgrowth in the stomach.