Amino acid availability acts as a metabolic rheostat to determine the magnitude of ILC2 responses

Suzanne Hodge; Maria Eduarda Zancanaro Krauss; Irem Kaymak; James King; Andrew J. M. Howden; Gordana Panic; Richard Grencis; Jonathan Swann; Linda V. Sinclair; Matthew Hepworth

doi:10.1084/jem.20221073

Amino acid availability acts as a metabolic rheostat to determine the magnitude of ILC2 responses

Suzanne Hodge, Maria Eduarda Zancanaro Krauss, Irem Kaymak, James King, Andrew J. M. Howden, Gordana Panic, Richard Grencis, Jonathan Swann, Linda V. Sinclair, Matthew Hepworth

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

Abstract

Group 2 innate lymphoid cells (ILC2) are functionally poised, tissue-resident lymphocytes that respond rapidly to damage and infection at mucosal barrier sites. ILC2 reside within complex microenvironments where they are subject to cues from both the diet and invading pathogens – including helminths. Emerging evidence suggests ILC2 are acutely sensitive not only to canonical activating signals, but also perturbations in nutrient availability. In the context of helminth infection, we identify amino acid availability as a nutritional cue in regulating ILC2 responses. ILC2 were found to be uniquely pre-primed to import amino acids via the large neutral amino acid transporters Slc7a5 and Slc7a8. Cell-intrinsic deletion of these transporters individually impaired ILC2 expansion, while concurrent loss of both transporters markedly impaired the proliferative and cytokine producing capacity of ILC2. Mechanistically, amino acid uptake determined the magnitude of ILC2 responses in part via tuning of mTOR. These findings implicate essential amino acids as a metabolic requisite for optimal ILC2 responses within mucosal barrier tissues.

Original language	English
Journal	Journal of Experimental Medicine
DOIs	https://doi.org/10.1084/jem.20221073
Publication status	Published - 26 Dec 2022

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10.1084/jem.20221073Licence: CC BY

Centre for Biological Timing
Lucas, R., Bechtold, D., Fustin, J., Ashe, H., Brown, T., Blaikley, J., Brass, A., Chandola, T., Durrington, H., Else, K., Hepworth, M., Hunter, L., Kadler, K., Kitchen, G., Loudon, A., Macdonald, A., Mcbeth, J., Milosavljevic, N., Rattray, M., Rutter, M., Sharrocks, A., Spiller, D., Storchi, R., Belle, M., Meng, Q., Allen, A., Dixon, W., Gibbs, J., Hazel, A., Papalopulu, N., Ray, D., White, M. & Chang, J.
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@article{197e808759ec46948da4163270d49fc9,

title = "Amino acid availability acts as a metabolic rheostat to determine the magnitude of ILC2 responses",

abstract = "Group 2 innate lymphoid cells (ILC2) are functionally poised, tissue-resident lymphocytes that respond rapidly to damage and infection at mucosal barrier sites. ILC2 reside within complex microenvironments where they are subject to cues from both the diet and invading pathogens – including helminths. Emerging evidence suggests ILC2 are acutely sensitive not only to canonical activating signals, but also perturbations in nutrient availability. In the context of helminth infection, we identify amino acid availability as a nutritional cue in regulating ILC2 responses. ILC2 were found to be uniquely pre-primed to import amino acids via the large neutral amino acid transporters Slc7a5 and Slc7a8. Cell-intrinsic deletion of these transporters individually impaired ILC2 expansion, while concurrent loss of both transporters markedly impaired the proliferative and cytokine producing capacity of ILC2. Mechanistically, amino acid uptake determined the magnitude of ILC2 responses in part via tuning of mTOR. These findings implicate essential amino acids as a metabolic requisite for optimal ILC2 responses within mucosal barrier tissues.",

author = "Suzanne Hodge and {Zancanaro Krauss}, {Maria Eduarda} and Irem Kaymak and James King and Howden, {Andrew J. M.} and Gordana Panic and Richard Grencis and Jonathan Swann and Sinclair, {Linda V.} and Matthew Hepworth",

year = "2022",

month = dec,

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doi = "10.1084/jem.20221073",

language = "English",

journal = "Journal of Experimental Medicine",

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publisher = "Rockefeller University Press",

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TY - JOUR

T1 - Amino acid availability acts as a metabolic rheostat to determine the magnitude of ILC2 responses

AU - Hodge, Suzanne

AU - Zancanaro Krauss, Maria Eduarda

AU - Kaymak, Irem

AU - King, James

AU - Howden, Andrew J. M.

AU - Panic, Gordana

AU - Grencis, Richard

AU - Swann, Jonathan

AU - Sinclair, Linda V.

AU - Hepworth, Matthew

PY - 2022/12/26

Y1 - 2022/12/26

N2 - Group 2 innate lymphoid cells (ILC2) are functionally poised, tissue-resident lymphocytes that respond rapidly to damage and infection at mucosal barrier sites. ILC2 reside within complex microenvironments where they are subject to cues from both the diet and invading pathogens – including helminths. Emerging evidence suggests ILC2 are acutely sensitive not only to canonical activating signals, but also perturbations in nutrient availability. In the context of helminth infection, we identify amino acid availability as a nutritional cue in regulating ILC2 responses. ILC2 were found to be uniquely pre-primed to import amino acids via the large neutral amino acid transporters Slc7a5 and Slc7a8. Cell-intrinsic deletion of these transporters individually impaired ILC2 expansion, while concurrent loss of both transporters markedly impaired the proliferative and cytokine producing capacity of ILC2. Mechanistically, amino acid uptake determined the magnitude of ILC2 responses in part via tuning of mTOR. These findings implicate essential amino acids as a metabolic requisite for optimal ILC2 responses within mucosal barrier tissues.

AB - Group 2 innate lymphoid cells (ILC2) are functionally poised, tissue-resident lymphocytes that respond rapidly to damage and infection at mucosal barrier sites. ILC2 reside within complex microenvironments where they are subject to cues from both the diet and invading pathogens – including helminths. Emerging evidence suggests ILC2 are acutely sensitive not only to canonical activating signals, but also perturbations in nutrient availability. In the context of helminth infection, we identify amino acid availability as a nutritional cue in regulating ILC2 responses. ILC2 were found to be uniquely pre-primed to import amino acids via the large neutral amino acid transporters Slc7a5 and Slc7a8. Cell-intrinsic deletion of these transporters individually impaired ILC2 expansion, while concurrent loss of both transporters markedly impaired the proliferative and cytokine producing capacity of ILC2. Mechanistically, amino acid uptake determined the magnitude of ILC2 responses in part via tuning of mTOR. These findings implicate essential amino acids as a metabolic requisite for optimal ILC2 responses within mucosal barrier tissues.

U2 - 10.1084/jem.20221073

DO - 10.1084/jem.20221073

M3 - Article

SN - 0022-1007

JO - Journal of Experimental Medicine

JF - Journal of Experimental Medicine

ER -

Amino acid availability acts as a metabolic rheostat to determine the magnitude of ILC2 responses

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