期刊
ACTA BIOMATERIALIA
卷 133, 期 -, 页码 187-207出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.actbio.2021.05.045
关键词
Microbiota; Mucosal immunology; Commensal-derived molecules; Biomaterials; Gut-on-a-chip
This article discusses the symbiotic relationship between mammals and gut commensal microbes, highlighting the importance of immunomodulatory molecules produced by commensals in maintaining immune tolerance. The incorporation of these molecules into biomaterial-based strategies could potentially expand the application of commensal-derived therapeutics.
A B S T R A C T Over the course of evolution, mammals and gut commensal microbes have adapted to coexist with each other. This homeostatic coexistence is dependent on an intricate balance between tolerogenic and inflammatory responses directed towards beneficial, commensal microbes and pathogenic intruders, respectively. Immune tolerance towards the gut microflora is largely sustained by immunomodulatory molecules produced by the commensals, which protect the bacteria from immune advances and maintain the gut's unique tolerogenic microenvironment, as well as systemic homeostasis. The identification and characterization of commensal-derived, tolerogenic molecules could lead to their utilization in biomaterialsinspired delivery schemes involving nano/microparticles or hydrogels, and potentially lead to the next generation of commensal-derived therapeutics. Moreover, gut-on-chip technologies could augment the discovery and characterization of influential commensals by providing realistic in vitro models conducive to finicky microbes. In this review, we provide an overview of the gut immune system, describe its intricate relationships with the microflora and identify major genera involved in maintaining tolerogenic responses and peripheral homeostasis. More relevant to biomaterials, we discuss commensal-derived molecules that are known to interface with immune cells and discuss potential strategies for their incorporation into biomaterial-based strategies aimed at culling inflammatory diseases. We hope this review will bridge the current findings in gut immunology, microbiology and biomaterials and spark further investigation into this emerging field.
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