Human subcutaneous and visceral adipocyte atlases uncover classical and nonclassical adipocytes and depot-specific patterns

Or Lazarescu; Maya Ziv-Agam; Yulia Haim; Idan Hekselman; Juman Jubran; Ariel Shneyour; Habib Muallem; Alon Zemer; Marina Rosengarten-Levin; Daniel Kitsberg; Liron Levin; Idit F. Liberty; Uri Yoel; Oleg Dukhno; Miriam Adam; Julia Braune; Claudia Müller; Nora Raulien; Martin Gericke; Antje Körner; Rinki Murphy; Matthias Blüher; Naomi Habib; Assaf Rudich; Esti Yeger-Lotem

doi:10.1038/s41588-024-02048-3

Human subcutaneous and visceral adipocyte atlases uncover classical and nonclassical adipocytes and depot-specific patterns

Or Lazarescu, Maya Ziv-Agam, Yulia Haim, Idan Hekselman, Juman Jubran, Ariel Shneyour, Habib Muallem, Alon Zemer, Marina Rosengarten-Levin, Daniel Kitsberg, Liron Levin, Idit F. Liberty, Uri Yoel, Oleg Dukhno, Miriam Adam, Julia Braune, Claudia Müller, Nora Raulien, Martin Gericke, Antje KörnerRinki Murphy, Matthias Blüher, Naomi Habib, Assaf Rudich^*, Esti Yeger-Lotem^*

^*Corresponding author for this work

Edmond & Lily Safra Center for Brain Sciences

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

2 Scopus citations

Abstract

Human adipose depots are functionally distinct. Yet, recent single-nucleus RNA sequencing (snRNA-seq) analyses largely uncovered overlapping or similar cell-type landscapes. We hypothesized that adipocyte subtypes, differentiation trajectories and/or intercellular communication patterns could illuminate this depot similarity–difference gap. For this, we performed snRNA-seq of human subcutaneous or visceral adipose tissues (five or ten samples, respectively). Of 27,665 adipocyte nuclei in both depots, most were ‘classical’, namely enriched in lipid metabolism pathways. However, we also observed ‘nonclassical’ adipocyte subtypes, enriched in immune-related, extracellular matrix deposition (fibrosis), vascularization or angiogenesis or ribosomal and mitochondrial processes. Pseudo-temporal analysis showed a developmental trajectory from adipose progenitor cells to classical adipocytes via nonclassical adipocytes, suggesting that the classical state stems from loss, rather than gain, of specialized functions. Last, intercellular communication routes were consistent with the different inflammatory tone of the two depots. Jointly, these findings provide a high-resolution view into the contribution of cellular composition, differentiation and intercellular communication patterns to human fat depot differences.

Original language	English
Article number	1438
Journal	Nature Genetics
DOIs	https://doi.org/10.1038/s41588-024-02048-3
State	Accepted/In press - 2025

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© The Author(s) 2025.

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Lazarescu, O., Ziv-Agam, M., Haim, Y., Hekselman, I., Jubran, J., Shneyour, A., Muallem, H., Zemer, A., Rosengarten-Levin, M., Kitsberg, D., Levin, L., Liberty, I. F., Yoel, U., Dukhno, O., Adam, M., Braune, J., Müller, C., Raulien, N., Gericke, M., ... Yeger-Lotem, E. (Accepted/In press). Human subcutaneous and visceral adipocyte atlases uncover classical and nonclassical adipocytes and depot-specific patterns. Nature Genetics, Article 1438. https://doi.org/10.1038/s41588-024-02048-3

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title = "Human subcutaneous and visceral adipocyte atlases uncover classical and nonclassical adipocytes and depot-specific patterns",

abstract = "Human adipose depots are functionally distinct. Yet, recent single-nucleus RNA sequencing (snRNA-seq) analyses largely uncovered overlapping or similar cell-type landscapes. We hypothesized that adipocyte subtypes, differentiation trajectories and/or intercellular communication patterns could illuminate this depot similarity–difference gap. For this, we performed snRNA-seq of human subcutaneous or visceral adipose tissues (five or ten samples, respectively). Of 27,665 adipocyte nuclei in both depots, most were {\textquoteleft}classical{\textquoteright}, namely enriched in lipid metabolism pathways. However, we also observed {\textquoteleft}nonclassical{\textquoteright} adipocyte subtypes, enriched in immune-related, extracellular matrix deposition (fibrosis), vascularization or angiogenesis or ribosomal and mitochondrial processes. Pseudo-temporal analysis showed a developmental trajectory from adipose progenitor cells to classical adipocytes via nonclassical adipocytes, suggesting that the classical state stems from loss, rather than gain, of specialized functions. Last, intercellular communication routes were consistent with the different inflammatory tone of the two depots. Jointly, these findings provide a high-resolution view into the contribution of cellular composition, differentiation and intercellular communication patterns to human fat depot differences.",

author = "Or Lazarescu and Maya Ziv-Agam and Yulia Haim and Idan Hekselman and Juman Jubran and Ariel Shneyour and Habib Muallem and Alon Zemer and Marina Rosengarten-Levin and Daniel Kitsberg and Liron Levin and Liberty, {Idit F.} and Uri Yoel and Oleg Dukhno and Miriam Adam and Julia Braune and Claudia M{\"u}ller and Nora Raulien and Martin Gericke and Antje K{\"o}rner and Rinki Murphy and Matthias Bl{\"u}her and Naomi Habib and Assaf Rudich and Esti Yeger-Lotem",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2025.",

year = "2025",

doi = "10.1038/s41588-024-02048-3",

language = "אנגלית",

journal = "Nature Genetics",

issn = "1061-4036",

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Lazarescu, O, Ziv-Agam, M, Haim, Y, Hekselman, I, Jubran, J, Shneyour, A, Muallem, H, Zemer, A, Rosengarten-Levin, M, Kitsberg, D, Levin, L, Liberty, IF, Yoel, U, Dukhno, O, Adam, M, Braune, J, Müller, C, Raulien, N, Gericke, M, Körner, A, Murphy, R, Blüher, M, Habib, N, Rudich, A & Yeger-Lotem, E 2025, 'Human subcutaneous and visceral adipocyte atlases uncover classical and nonclassical adipocytes and depot-specific patterns', Nature Genetics. https://doi.org/10.1038/s41588-024-02048-3

TY - JOUR

T1 - Human subcutaneous and visceral adipocyte atlases uncover classical and nonclassical adipocytes and depot-specific patterns

AU - Lazarescu, Or

AU - Ziv-Agam, Maya

AU - Haim, Yulia

AU - Hekselman, Idan

AU - Jubran, Juman

AU - Shneyour, Ariel

AU - Muallem, Habib

AU - Zemer, Alon

AU - Rosengarten-Levin, Marina

AU - Kitsberg, Daniel

AU - Levin, Liron

AU - Liberty, Idit F.

AU - Yoel, Uri

AU - Dukhno, Oleg

AU - Adam, Miriam

AU - Braune, Julia

AU - Müller, Claudia

AU - Raulien, Nora

AU - Gericke, Martin

AU - Körner, Antje

AU - Murphy, Rinki

AU - Blüher, Matthias

AU - Habib, Naomi

AU - Rudich, Assaf

AU - Yeger-Lotem, Esti

PY - 2025

Y1 - 2025

N2 - Human adipose depots are functionally distinct. Yet, recent single-nucleus RNA sequencing (snRNA-seq) analyses largely uncovered overlapping or similar cell-type landscapes. We hypothesized that adipocyte subtypes, differentiation trajectories and/or intercellular communication patterns could illuminate this depot similarity–difference gap. For this, we performed snRNA-seq of human subcutaneous or visceral adipose tissues (five or ten samples, respectively). Of 27,665 adipocyte nuclei in both depots, most were ‘classical’, namely enriched in lipid metabolism pathways. However, we also observed ‘nonclassical’ adipocyte subtypes, enriched in immune-related, extracellular matrix deposition (fibrosis), vascularization or angiogenesis or ribosomal and mitochondrial processes. Pseudo-temporal analysis showed a developmental trajectory from adipose progenitor cells to classical adipocytes via nonclassical adipocytes, suggesting that the classical state stems from loss, rather than gain, of specialized functions. Last, intercellular communication routes were consistent with the different inflammatory tone of the two depots. Jointly, these findings provide a high-resolution view into the contribution of cellular composition, differentiation and intercellular communication patterns to human fat depot differences.

AB - Human adipose depots are functionally distinct. Yet, recent single-nucleus RNA sequencing (snRNA-seq) analyses largely uncovered overlapping or similar cell-type landscapes. We hypothesized that adipocyte subtypes, differentiation trajectories and/or intercellular communication patterns could illuminate this depot similarity–difference gap. For this, we performed snRNA-seq of human subcutaneous or visceral adipose tissues (five or ten samples, respectively). Of 27,665 adipocyte nuclei in both depots, most were ‘classical’, namely enriched in lipid metabolism pathways. However, we also observed ‘nonclassical’ adipocyte subtypes, enriched in immune-related, extracellular matrix deposition (fibrosis), vascularization or angiogenesis or ribosomal and mitochondrial processes. Pseudo-temporal analysis showed a developmental trajectory from adipose progenitor cells to classical adipocytes via nonclassical adipocytes, suggesting that the classical state stems from loss, rather than gain, of specialized functions. Last, intercellular communication routes were consistent with the different inflammatory tone of the two depots. Jointly, these findings provide a high-resolution view into the contribution of cellular composition, differentiation and intercellular communication patterns to human fat depot differences.

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U2 - 10.1038/s41588-024-02048-3

DO - 10.1038/s41588-024-02048-3

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C2 - 39856219

AN - SCOPUS:85217211418

SN - 1061-4036

JO - Nature Genetics

JF - Nature Genetics

M1 - 1438

ER -

Human subcutaneous and visceral adipocyte atlases uncover classical and nonclassical adipocytes and depot-specific patterns

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