Cytoarchitectural multi-depot profiling reveals immune-metabolic crosstalk in human colon-associated adipose tissue

Jutta Jalkanen; Jiawei Zhong; Pamela A Nono Nankam; Nayanika Bhalla; Merve Elmastas; Jiaxin Luo; Sophie Weinbrenner; Scott Frendo-Cumbo; Benedek Pesti; William Gourash; Anita Courcoulas; Zinger Yang Loureiro; Arne Dietrich; Jesper Bäckdahl; Anders Thorell; Marcus Buggert; Joanna Kalucka; Margo P Emont; Evan D Rosen; Matthias Blüher; Peter Kovacs; Patrik L Ståhl; Lucas Massier; Mikael Rydén; Niklas Mejhert

doi:10.1016/j.cmet.2025.12.008

Cytoarchitectural multi-depot profiling reveals immune-metabolic crosstalk in human colon-associated adipose tissue

Jutta Jalkanen, Jiawei Zhong, Pamela A Nono Nankam, Nayanika Bhalla, Merve Elmastas, Jiaxin Luo, Sophie Weinbrenner, Scott Frendo-Cumbo, Benedek Pesti, William Gourash, Anita Courcoulas, Zinger Yang Loureiro, Arne Dietrich, Jesper Bäckdahl, Anders Thorell, Marcus Buggert, Joanna Kalucka, Margo P Emont, Evan D Rosen, Matthias BlüherPeter Kovacs, Patrik L Ståhl, Lucas Massier, Mikael Rydén, Niklas Mejhert^*

^*Corresponding author af dette arbejde

Steno Diabetes Center Copenhagen

Abstract

While it is well established that the cellular composition of white adipose tissue (WAT) varies between depots, the functional relevance of this heterogeneity remains unclear. By combining spatial and single-nucleus RNA sequencing, we provide a comprehensive map of subcutaneous and visceral (omental, mesenteric, mesocolic, and epiploic) WAT in both men and women. Our analyses reveal shared features, such as the spatial organization of adipogenesis, alongside depot-specific characteristics, including distinct cell-type enrichments and unique cell-cell communication routes. Epiploic WAT stands out by harboring high proportions of serum amyloid A expressing fat cells (encoded by SAA1/SAA2) and several leukocyte populations. Through mechanistic studies, we demonstrate that adipocyte SAA1/SAA2 expression is induced by inflammatory signals, including lipopolysaccharide, and that SAA1 activates immune responses in adipose-resident myeloid cells. Collectively, our findings suggest that visceral WAT exhibits distinct cytoarchitectural properties, with those located near the colon adapting by developing specialized adipocytes and immune cell populations.

Originalsprog	Engelsk
Tidsskrift	Cell Metabolism
Vol/bind	38
Udgave nummer	2
Sider (fra-til)	419-433.e9
ISSN	1550-4131
DOI	https://doi.org/10.1016/j.cmet.2025.12.008
Status	Udgivet - 3 feb. 2026

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10.1016/j.cmet.2025.12.008Licens: CC BY

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Jalkanen, J., Zhong, J., Nono Nankam, P. A., Bhalla, N., Elmastas, M., Luo, J., Weinbrenner, S., Frendo-Cumbo, S., Pesti, B., Gourash, W., Courcoulas, A., Yang Loureiro, Z., Dietrich, A., Bäckdahl, J., Thorell, A., Buggert, M., Kalucka, J., Emont, M. P., Rosen, E. D., ... Mejhert, N. (2026). Cytoarchitectural multi-depot profiling reveals immune-metabolic crosstalk in human colon-associated adipose tissue. Cell Metabolism, 38(2), 419-433.e9. https://doi.org/10.1016/j.cmet.2025.12.008

Jalkanen, J, Zhong, J, Nono Nankam, PA, Bhalla, N, Elmastas, M, Luo, J, Weinbrenner, S, Frendo-Cumbo, S, Pesti, B, Gourash, W, Courcoulas, A, Yang Loureiro, Z, Dietrich, A, Bäckdahl, J, Thorell, A, Buggert, M, Kalucka, J, Emont, MP, Rosen, ED, Blüher, M, Kovacs, P, Ståhl, PL, Massier, L, Rydén, M & Mejhert, N 2026, 'Cytoarchitectural multi-depot profiling reveals immune-metabolic crosstalk in human colon-associated adipose tissue', Cell Metabolism, bind 38, nr. 2, s. 419-433.e9. https://doi.org/10.1016/j.cmet.2025.12.008

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title = "Cytoarchitectural multi-depot profiling reveals immune-metabolic crosstalk in human colon-associated adipose tissue",

abstract = "While it is well established that the cellular composition of white adipose tissue (WAT) varies between depots, the functional relevance of this heterogeneity remains unclear. By combining spatial and single-nucleus RNA sequencing, we provide a comprehensive map of subcutaneous and visceral (omental, mesenteric, mesocolic, and epiploic) WAT in both men and women. Our analyses reveal shared features, such as the spatial organization of adipogenesis, alongside depot-specific characteristics, including distinct cell-type enrichments and unique cell-cell communication routes. Epiploic WAT stands out by harboring high proportions of serum amyloid A expressing fat cells (encoded by SAA1/SAA2) and several leukocyte populations. Through mechanistic studies, we demonstrate that adipocyte SAA1/SAA2 expression is induced by inflammatory signals, including lipopolysaccharide, and that SAA1 activates immune responses in adipose-resident myeloid cells. Collectively, our findings suggest that visceral WAT exhibits distinct cytoarchitectural properties, with those located near the colon adapting by developing specialized adipocytes and immune cell populations.",

keywords = "adipocyte subtypes, adipose depots, cell-cell communication, cellular heterogeneity, inflammation, insulin resistance, microbiome, obesity, transcriptomics, Humans, Middle Aged, Adipocytes/metabolism, Male, Adipose Tissue, White/metabolism, Colon/metabolism, Adipose Tissue/metabolism, Serum Amyloid A Protein/metabolism, Female, Adult, Adipogenesis",

author = "Jutta Jalkanen and Jiawei Zhong and {Nono Nankam}, {Pamela A} and Nayanika Bhalla and Merve Elmastas and Jiaxin Luo and Sophie Weinbrenner and Scott Frendo-Cumbo and Benedek Pesti and William Gourash and Anita Courcoulas and {Yang Loureiro}, Zinger and Arne Dietrich and Jesper B{\"a}ckdahl and Anders Thorell and Marcus Buggert and Joanna Kalucka and Emont, {Margo P} and Rosen, {Evan D} and Matthias Bl{\"u}her and Peter Kovacs and St{\aa}hl, {Patrik L} and Lucas Massier and Mikael Ryd{\'e}n and Niklas Mejhert",

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doi = "10.1016/j.cmet.2025.12.008",

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T1 - Cytoarchitectural multi-depot profiling reveals immune-metabolic crosstalk in human colon-associated adipose tissue

AU - Jalkanen, Jutta

AU - Zhong, Jiawei

AU - Nono Nankam, Pamela A

AU - Bhalla, Nayanika

AU - Elmastas, Merve

AU - Luo, Jiaxin

AU - Weinbrenner, Sophie

AU - Frendo-Cumbo, Scott

AU - Pesti, Benedek

AU - Gourash, William

AU - Courcoulas, Anita

AU - Yang Loureiro, Zinger

AU - Dietrich, Arne

AU - Bäckdahl, Jesper

AU - Thorell, Anders

AU - Buggert, Marcus

AU - Kalucka, Joanna

AU - Emont, Margo P

AU - Rosen, Evan D

AU - Blüher, Matthias

AU - Kovacs, Peter

AU - Ståhl, Patrik L

AU - Massier, Lucas

AU - Rydén, Mikael

AU - Mejhert, Niklas

PY - 2026/2/3

Y1 - 2026/2/3

N2 - While it is well established that the cellular composition of white adipose tissue (WAT) varies between depots, the functional relevance of this heterogeneity remains unclear. By combining spatial and single-nucleus RNA sequencing, we provide a comprehensive map of subcutaneous and visceral (omental, mesenteric, mesocolic, and epiploic) WAT in both men and women. Our analyses reveal shared features, such as the spatial organization of adipogenesis, alongside depot-specific characteristics, including distinct cell-type enrichments and unique cell-cell communication routes. Epiploic WAT stands out by harboring high proportions of serum amyloid A expressing fat cells (encoded by SAA1/SAA2) and several leukocyte populations. Through mechanistic studies, we demonstrate that adipocyte SAA1/SAA2 expression is induced by inflammatory signals, including lipopolysaccharide, and that SAA1 activates immune responses in adipose-resident myeloid cells. Collectively, our findings suggest that visceral WAT exhibits distinct cytoarchitectural properties, with those located near the colon adapting by developing specialized adipocytes and immune cell populations.

AB - While it is well established that the cellular composition of white adipose tissue (WAT) varies between depots, the functional relevance of this heterogeneity remains unclear. By combining spatial and single-nucleus RNA sequencing, we provide a comprehensive map of subcutaneous and visceral (omental, mesenteric, mesocolic, and epiploic) WAT in both men and women. Our analyses reveal shared features, such as the spatial organization of adipogenesis, alongside depot-specific characteristics, including distinct cell-type enrichments and unique cell-cell communication routes. Epiploic WAT stands out by harboring high proportions of serum amyloid A expressing fat cells (encoded by SAA1/SAA2) and several leukocyte populations. Through mechanistic studies, we demonstrate that adipocyte SAA1/SAA2 expression is induced by inflammatory signals, including lipopolysaccharide, and that SAA1 activates immune responses in adipose-resident myeloid cells. Collectively, our findings suggest that visceral WAT exhibits distinct cytoarchitectural properties, with those located near the colon adapting by developing specialized adipocytes and immune cell populations.

KW - adipocyte subtypes

KW - adipose depots

KW - cell-cell communication

KW - cellular heterogeneity

KW - inflammation

KW - insulin resistance

KW - microbiome

KW - obesity

KW - transcriptomics

KW - Humans

KW - Middle Aged

KW - Adipocytes/metabolism

KW - Male

KW - Adipose Tissue, White/metabolism

KW - Colon/metabolism

KW - Adipose Tissue/metabolism

KW - Serum Amyloid A Protein/metabolism

KW - Female

KW - Adult

KW - Adipogenesis

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U2 - 10.1016/j.cmet.2025.12.008

DO - 10.1016/j.cmet.2025.12.008

M3 - Journal article

C2 - 41534526

SN - 1550-4131

VL - 38

SP - 419-433.e9

JO - Cell Metabolism

JF - Cell Metabolism

IS - 2

ER -

Cytoarchitectural multi-depot profiling reveals immune-metabolic crosstalk in human colon-associated adipose tissue

Abstract

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