A membrane lipid signature unravels the dynamic landscape of group 1 innate lymphoid cells across the health-disease continuum

Halle C. Frey; Xin Sun; Fatima Oudeif; Darleny L. Corona; Zijun He; Taejoon Won; Tracy L. Schultz; Vern B. Carruthers; Amale Laouar; Yasmina Laouar

doi:10.1016/j.isci.2025.112043

A membrane lipid signature unravels the dynamic landscape of group 1 innate lymphoid cells across the health-disease continuum

Halle C. Frey, Xin Sun, Fatima Oudeif, Darleny L. Corona, Zijun He, Taejoon Won, Tracy L. Schultz, Vern B. Carruthers, Amale Laouar, Yasmina Laouar

Biomedical and Translational Sciences

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

Abstract

In an era where established lines between cell identities are blurred by intra-lineage plasticity, distinguishing stable from transitional states is critical, especially within Group 1 ILCs, where similarity and plasticity between NK cells and ILC1s obscure their unique contributions to immunity. This study leverages AsGM1—a membrane lipid associated with cytotoxic attributes absent in ILC1s—as a definitive criterion to discriminate between these cell types. Employing this glycosphingolipid signature, we achieved precise delineation of Group 1 ILC diversity across tissues. This lipid signature captured the binary classification of NK and ILC1 during acute liver injury and remained stable when tested in established models of NK-to-ILC1 plasticity driven by TGFβ or Toxoplasma gondii. The detection of AsGM1 at the iNK stage, prior to Eomes expression, and its persistence in known transitional states, positions AsGM1 as a pivotal marker for tracing NK-to-ILC1 transitions, effectively transcending the ambiguity inherent to the NK-to-ILC1 continuum.

Original language	English (US)
Article number	112043
Journal	iScience
Volume	28
Issue number	3
DOIs	https://doi.org/10.1016/j.isci.2025.112043
State	Published - Mar 21 2025

Keywords

Cell biology
Components of the immune system
Immunology
Lipid

ASJC Scopus subject areas

General

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10.1016/j.isci.2025.112043

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@article{e58ecfa7e4cf4825b61ff9ac049c8375,

title = "A membrane lipid signature unravels the dynamic landscape of group 1 innate lymphoid cells across the health-disease continuum",

abstract = "In an era where established lines between cell identities are blurred by intra-lineage plasticity, distinguishing stable from transitional states is critical, especially within Group 1 ILCs, where similarity and plasticity between NK cells and ILC1s obscure their unique contributions to immunity. This study leverages AsGM1—a membrane lipid associated with cytotoxic attributes absent in ILC1s—as a definitive criterion to discriminate between these cell types. Employing this glycosphingolipid signature, we achieved precise delineation of Group 1 ILC diversity across tissues. This lipid signature captured the binary classification of NK and ILC1 during acute liver injury and remained stable when tested in established models of NK-to-ILC1 plasticity driven by TGFβ or Toxoplasma gondii. The detection of AsGM1 at the iNK stage, prior to Eomes expression, and its persistence in known transitional states, positions AsGM1 as a pivotal marker for tracing NK-to-ILC1 transitions, effectively transcending the ambiguity inherent to the NK-to-ILC1 continuum.",

keywords = "Cell biology, Components of the immune system, Immunology, Lipid",

author = "Frey, {Halle C.} and Xin Sun and Fatima Oudeif and Corona, {Darleny L.} and Zijun He and Taejoon Won and Schultz, {Tracy L.} and Carruthers, {Vern B.} and Amale Laouar and Yasmina Laouar",

note = "Library preparation and next-generation sequencing were carried out at the Advanced Genomics Core, University of Michigan. Analysis of RNA-seq data was performed by the Bioinformatics Core at the University of Michigan Medical School\u2019s Biomedical Research Core Facilities (RRID:SCR_019168). We thank the staff and teams at these facilities for their assistance. Funding: The study was supported by NIAID ( R21 AI14010602 and R21AI138180 to Y.L. and X.S., and R01 AI120607 V.B.C.). Library preparation and next-generation sequencing were carried out at the Advanced Genomics Core, University of Michigan. Analysis of RNA-seq data was performed by the Bioinformatics Core at the University of Michigan Medical School's Biomedical Research Core Facilities (RRID:SCR_019168). We thank the staff and teams at these facilities for their assistance. Funding: The study was supported by NIAID (R21 AI14010602 and R21AI138180 to Y.L. and X.S., and R01 AI120607 V.B.C.).",

year = "2025",

month = mar,

day = "21",

doi = "10.1016/j.isci.2025.112043",

language = "English (US)",

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journal = "iScience",

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T1 - A membrane lipid signature unravels the dynamic landscape of group 1 innate lymphoid cells across the health-disease continuum

AU - Frey, Halle C.

AU - Sun, Xin

AU - Oudeif, Fatima

AU - Corona, Darleny L.

AU - He, Zijun

AU - Won, Taejoon

AU - Schultz, Tracy L.

AU - Carruthers, Vern B.

AU - Laouar, Amale

AU - Laouar, Yasmina

N1 - Library preparation and next-generation sequencing were carried out at the Advanced Genomics Core, University of Michigan. Analysis of RNA-seq data was performed by the Bioinformatics Core at the University of Michigan Medical School\u2019s Biomedical Research Core Facilities (RRID:SCR_019168). We thank the staff and teams at these facilities for their assistance. Funding: The study was supported by NIAID ( R21 AI14010602 and R21AI138180 to Y.L. and X.S., and R01 AI120607 V.B.C.). Library preparation and next-generation sequencing were carried out at the Advanced Genomics Core, University of Michigan. Analysis of RNA-seq data was performed by the Bioinformatics Core at the University of Michigan Medical School's Biomedical Research Core Facilities (RRID:SCR_019168). We thank the staff and teams at these facilities for their assistance. Funding: The study was supported by NIAID (R21 AI14010602 and R21AI138180 to Y.L. and X.S., and R01 AI120607 V.B.C.).

PY - 2025/3/21

Y1 - 2025/3/21

N2 - In an era where established lines between cell identities are blurred by intra-lineage plasticity, distinguishing stable from transitional states is critical, especially within Group 1 ILCs, where similarity and plasticity between NK cells and ILC1s obscure their unique contributions to immunity. This study leverages AsGM1—a membrane lipid associated with cytotoxic attributes absent in ILC1s—as a definitive criterion to discriminate between these cell types. Employing this glycosphingolipid signature, we achieved precise delineation of Group 1 ILC diversity across tissues. This lipid signature captured the binary classification of NK and ILC1 during acute liver injury and remained stable when tested in established models of NK-to-ILC1 plasticity driven by TGFβ or Toxoplasma gondii. The detection of AsGM1 at the iNK stage, prior to Eomes expression, and its persistence in known transitional states, positions AsGM1 as a pivotal marker for tracing NK-to-ILC1 transitions, effectively transcending the ambiguity inherent to the NK-to-ILC1 continuum.

AB - In an era where established lines between cell identities are blurred by intra-lineage plasticity, distinguishing stable from transitional states is critical, especially within Group 1 ILCs, where similarity and plasticity between NK cells and ILC1s obscure their unique contributions to immunity. This study leverages AsGM1—a membrane lipid associated with cytotoxic attributes absent in ILC1s—as a definitive criterion to discriminate between these cell types. Employing this glycosphingolipid signature, we achieved precise delineation of Group 1 ILC diversity across tissues. This lipid signature captured the binary classification of NK and ILC1 during acute liver injury and remained stable when tested in established models of NK-to-ILC1 plasticity driven by TGFβ or Toxoplasma gondii. The detection of AsGM1 at the iNK stage, prior to Eomes expression, and its persistence in known transitional states, positions AsGM1 as a pivotal marker for tracing NK-to-ILC1 transitions, effectively transcending the ambiguity inherent to the NK-to-ILC1 continuum.

KW - Cell biology

KW - Components of the immune system

KW - Immunology

KW - Lipid

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DO - 10.1016/j.isci.2025.112043

M3 - Article

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SN - 2589-0042

VL - 28

JO - iScience

JF - iScience

IS - 3

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ER -

A membrane lipid signature unravels the dynamic landscape of group 1 innate lymphoid cells across the health-disease continuum

Abstract

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