Lepr+ mesenchymal cells sense diet to modulate intestinal stem/progenitor cells via Leptin-Igf1 axis

Diet can impact on gut health and disease by modulating intestinal stem cells (ISCs). However, it is largely unknown if and how the ISC niche responds to diet and influences ISC function. Here, we demonstrate that Lepr(+) mesenchymal cells (MCs) surrounding intestinal crypts sense diet change and provide a novel niche signal to maintain ISC and progenitor cell proliferation. The abundance of these MCs increases upon administration of a high-fat diet (HFD) but dramatically decreases upon fasting. Depletion of Lepr(+) MCs resulted in fewer intestinal stem/progenitor cells, compromised the architecture of crypt-villus axis and impaired intestinal regeneration. Furthermore, we showed that IGF1 secreted by Lepr(+) MCs is an important effector that promotes proliferation of ISCs and progenitor cells in the intestinal crypt. We conclude that Lepr(+) MCs sense diet alterations and, in turn, modulate intestinal stem/progenitor cell function via a stromal IGF1-epithelial IGF1R axis. These findings reveal that Lepr(+) MCs are important mediators linking systemic diet changes to local ISC function and might serve as a novel therapeutic target for gut diseases.

Automated summary

This study reveals that mesenchymal cells (MCs) surrounding the intestine can sense diet changes and modulate the function of intestinal stem cells (ISCs) through the secretion of IGF1. MCs play a critical role in maintaining the proliferation of ISC and progenitor cells, and these findings may provide a novel therapeutic target for gut diseases.