A hierarchy of intestinal antigens instructs the CD4+ T cell receptor repertoire

Jaeu Yi; Jisun Jung; David Horton; Patricia Hsieh; Yangqing Peng; Sean J. Wang; Rodney Newberry; Aaron C. Ericsson; Kwang Soon Kim; Andrew L. Kau; Chyi Song Hsieh

doi:10.1016/j.immuni.2025.04.011

A hierarchy of intestinal antigens instructs the CD4⁺ T cell receptor repertoire

Jaeu Yi, Jisun Jung, David Horton, Patricia Hsieh, Yangqing Peng, Sean J. Wang, Rodney Newberry, Aaron C. Ericsson, Kwang Soon Kim, Andrew L. Kau, Chyi Song Hsieh

Research output: Contribution to journal › Article › peer-review

Abstract

Intestinal CD4⁺ T cells that are specific for self-, diet-, or commensal-derived antigens are critical for host tolerance but must also be tightly regulated to prevent aberrant activation and conditions like inflammatory bowel disease (IBD). However, it is unclear how the antigen source and location dictate the intestinal TCR repertoire. Here, we hierarchically classified self-, diet-, or microbiota-dependent TCRs using TCliβ TCRβ transgenic mice. This demonstrated that microbiota had a greater influence than diet on CD4⁺ T cell responses throughout the intestine at homeostasis. Complex bi-directional interactions between microbes and diet were also observed. In the context of murine colitis as a model of IBD, we showed that antigen-free diet substantially altered the microbiota and associated T cell responses, which ameliorated intestinal inflammation. Collectively, these findings suggest how deconvoluting the gut immune interactome may facilitate identifying primary microbial and dietary drivers of T cell responses during health and disease.

Original language	English
Pages (from-to)	1217-1235.e4
Journal	Immunity
Volume	58
Issue number	5
DOIs	https://doi.org/10.1016/j.immuni.2025.04.011
State	Published - May 13 2025

Keywords

CD4 T cell responses to self-, diet, and microbial antigens
hierarchical TCR classification
inflammatory bowel disease
intestinal CD4 T cell responses
macro- and micro-immunologic CD4 T cell response
network analysis of TCR and microbe 16S sequences

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10.1016/j.immuni.2025.04.011

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title = "A hierarchy of intestinal antigens instructs the CD4+ T cell receptor repertoire",

abstract = "Intestinal CD4+ T cells that are specific for self-, diet-, or commensal-derived antigens are critical for host tolerance but must also be tightly regulated to prevent aberrant activation and conditions like inflammatory bowel disease (IBD). However, it is unclear how the antigen source and location dictate the intestinal TCR repertoire. Here, we hierarchically classified self-, diet-, or microbiota-dependent TCRs using TCliβ TCRβ transgenic mice. This demonstrated that microbiota had a greater influence than diet on CD4+ T cell responses throughout the intestine at homeostasis. Complex bi-directional interactions between microbes and diet were also observed. In the context of murine colitis as a model of IBD, we showed that antigen-free diet substantially altered the microbiota and associated T cell responses, which ameliorated intestinal inflammation. Collectively, these findings suggest how deconvoluting the gut immune interactome may facilitate identifying primary microbial and dietary drivers of T cell responses during health and disease.",

keywords = "CD4 T cell responses to self-, diet, and microbial antigens, hierarchical TCR classification, inflammatory bowel disease, intestinal CD4 T cell responses, macro- and micro-immunologic CD4 T cell response, network analysis of TCR and microbe 16S sequences",

author = "Jaeu Yi and Jisun Jung and David Horton and Patricia Hsieh and Yangqing Peng and Wang, {Sean J.} and Rodney Newberry and Ericsson, {Aaron C.} and Kim, {Kwang Soon} and Kau, {Andrew L.} and Hsieh, {Chyi Song}",

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year = "2025",

month = may,

day = "13",

doi = "10.1016/j.immuni.2025.04.011",

language = "English",

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AU - Yi, Jaeu

AU - Jung, Jisun

AU - Horton, David

AU - Hsieh, Patricia

AU - Peng, Yangqing

AU - Wang, Sean J.

AU - Newberry, Rodney

AU - Ericsson, Aaron C.

AU - Kim, Kwang Soon

AU - Kau, Andrew L.

AU - Hsieh, Chyi Song

PY - 2025/5/13

Y1 - 2025/5/13

N2 - Intestinal CD4+ T cells that are specific for self-, diet-, or commensal-derived antigens are critical for host tolerance but must also be tightly regulated to prevent aberrant activation and conditions like inflammatory bowel disease (IBD). However, it is unclear how the antigen source and location dictate the intestinal TCR repertoire. Here, we hierarchically classified self-, diet-, or microbiota-dependent TCRs using TCliβ TCRβ transgenic mice. This demonstrated that microbiota had a greater influence than diet on CD4+ T cell responses throughout the intestine at homeostasis. Complex bi-directional interactions between microbes and diet were also observed. In the context of murine colitis as a model of IBD, we showed that antigen-free diet substantially altered the microbiota and associated T cell responses, which ameliorated intestinal inflammation. Collectively, these findings suggest how deconvoluting the gut immune interactome may facilitate identifying primary microbial and dietary drivers of T cell responses during health and disease.

AB - Intestinal CD4+ T cells that are specific for self-, diet-, or commensal-derived antigens are critical for host tolerance but must also be tightly regulated to prevent aberrant activation and conditions like inflammatory bowel disease (IBD). However, it is unclear how the antigen source and location dictate the intestinal TCR repertoire. Here, we hierarchically classified self-, diet-, or microbiota-dependent TCRs using TCliβ TCRβ transgenic mice. This demonstrated that microbiota had a greater influence than diet on CD4+ T cell responses throughout the intestine at homeostasis. Complex bi-directional interactions between microbes and diet were also observed. In the context of murine colitis as a model of IBD, we showed that antigen-free diet substantially altered the microbiota and associated T cell responses, which ameliorated intestinal inflammation. Collectively, these findings suggest how deconvoluting the gut immune interactome may facilitate identifying primary microbial and dietary drivers of T cell responses during health and disease.

KW - CD4 T cell responses to self-, diet, and microbial antigens

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KW - inflammatory bowel disease

KW - intestinal CD4 T cell responses

KW - macro- and micro-immunologic CD4 T cell response

KW - network analysis of TCR and microbe 16S sequences

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JO - Immunity

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ER -

A hierarchy of intestinal antigens instructs the CD4⁺ T cell receptor repertoire

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Keywords

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