Rhythmicity of intestinal IgA responses confers oscillatory commensal microbiota mutualism

Hugo A Penny; Rita G Domingues; Maria Z Krauss; Felipe Melo-Gonzalez; Melissa A E Lawson; Suzanna Dickson; James Parkinson; Madeleine Hurry; Catherine Purse; Emna Jegham; Cristina Godinho-Silva; Miguel Rendas; Henrique Veiga-Fernandes; David A Bechtold; Richard K Grencis; Kai-Michael Toellner; Ari Waisman; Jonathan R Swann; Julie E Gibbs; Matthew R Hepworth

doi:10.1126/sciimmunol.abk2541

Rhythmicity of intestinal IgA responses confers oscillatory commensal microbiota mutualism

Hugo A Penny, Rita G Domingues, Maria Z Krauss, Felipe Melo-Gonzalez, Melissa A E Lawson, Suzanna Dickson, James Parkinson, Madeleine Hurry, Catherine Purse, Emna Jegham, Cristina Godinho-Silva, Miguel Rendas, Henrique Veiga-Fernandes, David A Bechtold, Richard K Grencis, Kai-Michael Toellner, Ari Waisman, Jonathan R Swann, Julie E Gibbs, Matthew R Hepworth^*

^*Corresponding author for this work

Immunology and Immunotherapy

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

Abstract

Interactions between the mammalian host and commensal microbiota are enforced through a range of immune responses that confer metabolic benefits and promote tissue health and homeostasis. Immunoglobulin A (IgA) responses directly determine the composition of commensal species that colonize the intestinal tract but require substantial metabolic resources to fuel antibody production by tissue-resident plasma cells. Here, we demonstrate that IgA responses are subject to diurnal regulation over the course of a circadian day. Specifically, the magnitude of IgA secretion, as well as the transcriptome of intestinal IgA+ plasma cells, was found to exhibit rhythmicity. Oscillatory IgA responses were found to be entrained by time of feeding and were also found to be in part coordinated by the plasma cell-intrinsic circadian clock via deletion of the master clock gene Arntl. Moreover, reciprocal interactions between the host and microbiota dictated oscillatory dynamics among the commensal microbial community and its associated transcriptional and metabolic activity in an IgA-dependent manner. Together, our findings suggest that circadian networks comprising intestinal IgA, diet, and the microbiota converge to align circadian biology in the intestinal tract and to ensure host-microbial mutualism.

Original language	English
Article number	eabk2541
Number of pages	15
Journal	Science Immunology
Volume	7
Issue number	75
DOIs	https://doi.org/10.1126/sciimmunol.abk2541
Publication status	Published - 2 Sept 2022

Keywords

Animals
Immunoglobulin A, Secretory
Intestines
Mammals
Microbiota
Periodicity
Symbiosis

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10.1126/sciimmunol.abk2541

https://research.manchester.ac.uk/en/publications/rhythmicity-of-intestinal-iga-responses-confers-oscillatory-comme

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Penny, H. A., Domingues, R. G., Krauss, M. Z., Melo-Gonzalez, F., Lawson, M. A. E., Dickson, S., Parkinson, J., Hurry, M., Purse, C., Jegham, E., Godinho-Silva, C., Rendas, M., Veiga-Fernandes, H., Bechtold, D. A., Grencis, R. K., Toellner, K.-M., Waisman, A., Swann, J. R., Gibbs, J. E., & Hepworth, M. R. (2022). Rhythmicity of intestinal IgA responses confers oscillatory commensal microbiota mutualism. Science Immunology, 7(75), Article eabk2541. https://doi.org/10.1126/sciimmunol.abk2541

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title = "Rhythmicity of intestinal IgA responses confers oscillatory commensal microbiota mutualism",

abstract = "Interactions between the mammalian host and commensal microbiota are enforced through a range of immune responses that confer metabolic benefits and promote tissue health and homeostasis. Immunoglobulin A (IgA) responses directly determine the composition of commensal species that colonize the intestinal tract but require substantial metabolic resources to fuel antibody production by tissue-resident plasma cells. Here, we demonstrate that IgA responses are subject to diurnal regulation over the course of a circadian day. Specifically, the magnitude of IgA secretion, as well as the transcriptome of intestinal IgA+ plasma cells, was found to exhibit rhythmicity. Oscillatory IgA responses were found to be entrained by time of feeding and were also found to be in part coordinated by the plasma cell-intrinsic circadian clock via deletion of the master clock gene Arntl. Moreover, reciprocal interactions between the host and microbiota dictated oscillatory dynamics among the commensal microbial community and its associated transcriptional and metabolic activity in an IgA-dependent manner. Together, our findings suggest that circadian networks comprising intestinal IgA, diet, and the microbiota converge to align circadian biology in the intestinal tract and to ensure host-microbial mutualism.",

keywords = "Animals, Immunoglobulin A, Secretory, Intestines, Mammals, Microbiota, Periodicity, Symbiosis",

author = "Penny, {Hugo A} and Domingues, {Rita G} and Krauss, {Maria Z} and Felipe Melo-Gonzalez and Lawson, {Melissa A E} and Suzanna Dickson and James Parkinson and Madeleine Hurry and Catherine Purse and Emna Jegham and Cristina Godinho-Silva and Miguel Rendas and Henrique Veiga-Fernandes and Bechtold, {David A} and Grencis, {Richard K} and Kai-Michael Toellner and Ari Waisman and Swann, {Jonathan R} and Gibbs, {Julie E} and Hepworth, {Matthew R}",

year = "2022",

month = sep,

day = "2",

doi = "10.1126/sciimmunol.abk2541",

language = "English",

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Penny, HA, Domingues, RG, Krauss, MZ, Melo-Gonzalez, F, Lawson, MAE, Dickson, S, Parkinson, J, Hurry, M, Purse, C, Jegham, E, Godinho-Silva, C, Rendas, M, Veiga-Fernandes, H, Bechtold, DA, Grencis, RK, Toellner, K-M, Waisman, A, Swann, JR, Gibbs, JE & Hepworth, MR 2022, 'Rhythmicity of intestinal IgA responses confers oscillatory commensal microbiota mutualism', Science Immunology, vol. 7, no. 75, eabk2541. https://doi.org/10.1126/sciimmunol.abk2541

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T1 - Rhythmicity of intestinal IgA responses confers oscillatory commensal microbiota mutualism

AU - Penny, Hugo A

AU - Domingues, Rita G

AU - Krauss, Maria Z

AU - Melo-Gonzalez, Felipe

AU - Lawson, Melissa A E

AU - Dickson, Suzanna

AU - Parkinson, James

AU - Hurry, Madeleine

AU - Purse, Catherine

AU - Jegham, Emna

AU - Godinho-Silva, Cristina

AU - Rendas, Miguel

AU - Veiga-Fernandes, Henrique

AU - Bechtold, David A

AU - Grencis, Richard K

AU - Toellner, Kai-Michael

AU - Waisman, Ari

AU - Swann, Jonathan R

AU - Gibbs, Julie E

AU - Hepworth, Matthew R

PY - 2022/9/2

Y1 - 2022/9/2

N2 - Interactions between the mammalian host and commensal microbiota are enforced through a range of immune responses that confer metabolic benefits and promote tissue health and homeostasis. Immunoglobulin A (IgA) responses directly determine the composition of commensal species that colonize the intestinal tract but require substantial metabolic resources to fuel antibody production by tissue-resident plasma cells. Here, we demonstrate that IgA responses are subject to diurnal regulation over the course of a circadian day. Specifically, the magnitude of IgA secretion, as well as the transcriptome of intestinal IgA+ plasma cells, was found to exhibit rhythmicity. Oscillatory IgA responses were found to be entrained by time of feeding and were also found to be in part coordinated by the plasma cell-intrinsic circadian clock via deletion of the master clock gene Arntl. Moreover, reciprocal interactions between the host and microbiota dictated oscillatory dynamics among the commensal microbial community and its associated transcriptional and metabolic activity in an IgA-dependent manner. Together, our findings suggest that circadian networks comprising intestinal IgA, diet, and the microbiota converge to align circadian biology in the intestinal tract and to ensure host-microbial mutualism.

AB - Interactions between the mammalian host and commensal microbiota are enforced through a range of immune responses that confer metabolic benefits and promote tissue health and homeostasis. Immunoglobulin A (IgA) responses directly determine the composition of commensal species that colonize the intestinal tract but require substantial metabolic resources to fuel antibody production by tissue-resident plasma cells. Here, we demonstrate that IgA responses are subject to diurnal regulation over the course of a circadian day. Specifically, the magnitude of IgA secretion, as well as the transcriptome of intestinal IgA+ plasma cells, was found to exhibit rhythmicity. Oscillatory IgA responses were found to be entrained by time of feeding and were also found to be in part coordinated by the plasma cell-intrinsic circadian clock via deletion of the master clock gene Arntl. Moreover, reciprocal interactions between the host and microbiota dictated oscillatory dynamics among the commensal microbial community and its associated transcriptional and metabolic activity in an IgA-dependent manner. Together, our findings suggest that circadian networks comprising intestinal IgA, diet, and the microbiota converge to align circadian biology in the intestinal tract and to ensure host-microbial mutualism.

KW - Animals

KW - Immunoglobulin A, Secretory

KW - Intestines

KW - Mammals

KW - Microbiota

KW - Periodicity

KW - Symbiosis

U2 - 10.1126/sciimmunol.abk2541

DO - 10.1126/sciimmunol.abk2541

M3 - Article

C2 - 36054336

SN - 2470-9468

VL - 7

JO - Science Immunology

JF - Science Immunology

IS - 75

M1 - eabk2541

ER -

Rhythmicity of intestinal IgA responses confers oscillatory commensal microbiota mutualism

Abstract

Keywords

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