An Immune-competent Human Gut Microphysiological System Enables Inflammation-modulation of

Overview

Journal Res Sq

Date 2023 Oct 27

PMID 37886530

Authors

Jianbo Zhang

Yu-Ja Huang

Martin Trapecar

Charles Wright

Kirsten Schneider

John Kemmit

Victor Hernandez-Gordillo

Jun Young Yoon

Eric J Alm

David T Breault

David Trumper

Linda G Griffith

Affiliations

Soon will be listed here.

Abstract

Crosstalk of microbes with human gut epithelia and immune cells is crucial for gut health. However, there is no existing system for a long-term co-culture of human innate immune cells with epithelium and oxygen-intolerant commensal microbes, hindering the understanding of microbe-immune interactions in a controlled manner. Here, we establish a gut epithelium-microbe-immune microphysiological system to maintain the long-term continuous co-culture of with colonic epithelium, antigen-presenting cells (APCs, herein dendritic cells and macrophages), with CD4 naïve T cells circulating underneath the colonic epithelium. Multiplex cytokine assays suggested that APCs contribute to the elevated level of cytokines and chemokines being secreted into both apical and basolateral compartments. In contrast, the absence of APCs does not allow reliable detection of these cytokines. In the presence of APCs, increased the transcription of pro-inflammatory genes such as toll-like receptor 1 (TLR1) and interferon alpha 1 (IFNA1) in the colonic epithelium, but no significant change on the secreted cytokines. In contrast, integration of CD4 naïve T cells reverses this effect by decreasing the transcription of TLR1, IFNA1, and indoleamine 2,3-dioxygenase, and increasing the -induced secretion of pro-inflammatory cytokines such as IL-8, MCP-1/CCL2, and IL1A. These results highlight the contribution of individual innate immune cells in the regulation of the immune response triggered by the gut commensal . The successful integration of defined populations of immune cells in this gut microphysiological system demonstrated the usefulness of the GuMI physiomimetic platform to study microbe-epithelial-immune interactions in health and disease.

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