Genetic determinants of fatty acid composition in subcutaneous and visceral adipose tissue
Genetic determinants of fatty acid composition in subcutaneous and visceral adipose tissue
Objective: fatty acids in adipose tissue are key structural and metabolic regulators of cardiometabolic health, but the genetic architecture governing depot-specific composition in subcutaneous (SAT) and visceral adipose tissue (VAT) is not well defined.
Methods: we used MRI-derived estimates of fatty acid composition in SAT and VAT from 33,583 UK Biobank participants to perform genome-wide association studies. Functional annotation, fine mapping, colocalization, and expression QTL analyses were conducted to prioritize likely causal variants and explore mechanisms.
Results: we identified six loci associated with adipose tissue fatty acid composition, including both shared (PKD2L1, INSIG1) and depot-specific associations (LEKR1 and KLF14 for SAT; CDCA2 for VAT). The strongest association, rs603424-G (near PKD2L1), was linked to higher monounsaturated and polyunsaturated fatty acids, lower saturated fatty acids, and increased SCD1 expression in SAT and VAT, suggesting a role in desaturation and lipid remodeling. Several loci were linked to cardiometabolic outcomes including type 2 diabetes, hypertension, and cholelithiasis, with functional evidence supporting gene-diet interactions at the PKD2L1 locus.
Conclusions: our findings uncover genetic determinants of human adipose tissue fatty acid composition, highlight depot-specific regulation, and point to SCD1 as a potential metabolic regulator. These results deepen understanding of lipid metabolism and its links to cardiometabolic risk.
MRI scan, SCD1, cardiometabolic disease, fatty acids, visceral adipose tissue
2406-2415
Ahmed, Altayeb
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Naz, Afreen
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Thanaj, Marjola
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Sorokin, Elena P.
6ccb4c25-6fb6-438c-9dfe-7f05b1c79611
Whitcher, Brandon
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Bell, Jimmy D.
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Louise Thomas, E.
04516592-960a-40d6-90ef-6ea1ea3acb25
Cule, Madeleine
f66ae10e-ba5f-422c-92f9-a69295bfafd8
Yaghootkar, Hanieh
e45e4357-2f42-4eeb-a01a-18b7d3a00518
29 September 2025
Ahmed, Altayeb
db0d9d9d-4ac1-4163-b5e6-a1f7e9bf0b3f
Naz, Afreen
f2b52f8e-ee4d-4ead-a750-68b09ad3aac5
Thanaj, Marjola
fb9baacc-4255-483d-8efa-e4fa983a9b2f
Sorokin, Elena P.
6ccb4c25-6fb6-438c-9dfe-7f05b1c79611
Whitcher, Brandon
3a4e572c-571a-4e9f-8902-fa30c71ca994
Bell, Jimmy D.
7f913309-c2f4-42ba-bcfb-701cd0662e64
Louise Thomas, E.
04516592-960a-40d6-90ef-6ea1ea3acb25
Cule, Madeleine
f66ae10e-ba5f-422c-92f9-a69295bfafd8
Yaghootkar, Hanieh
e45e4357-2f42-4eeb-a01a-18b7d3a00518
Ahmed, Altayeb, Naz, Afreen, Thanaj, Marjola, Sorokin, Elena P., Whitcher, Brandon, Bell, Jimmy D., Louise Thomas, E., Cule, Madeleine and Yaghootkar, Hanieh
(2025)
Genetic determinants of fatty acid composition in subcutaneous and visceral adipose tissue.
Obesity, 33 (12), .
(doi:10.1002/oby.70045).
Abstract
Objective: fatty acids in adipose tissue are key structural and metabolic regulators of cardiometabolic health, but the genetic architecture governing depot-specific composition in subcutaneous (SAT) and visceral adipose tissue (VAT) is not well defined.
Methods: we used MRI-derived estimates of fatty acid composition in SAT and VAT from 33,583 UK Biobank participants to perform genome-wide association studies. Functional annotation, fine mapping, colocalization, and expression QTL analyses were conducted to prioritize likely causal variants and explore mechanisms.
Results: we identified six loci associated with adipose tissue fatty acid composition, including both shared (PKD2L1, INSIG1) and depot-specific associations (LEKR1 and KLF14 for SAT; CDCA2 for VAT). The strongest association, rs603424-G (near PKD2L1), was linked to higher monounsaturated and polyunsaturated fatty acids, lower saturated fatty acids, and increased SCD1 expression in SAT and VAT, suggesting a role in desaturation and lipid remodeling. Several loci were linked to cardiometabolic outcomes including type 2 diabetes, hypertension, and cholelithiasis, with functional evidence supporting gene-diet interactions at the PKD2L1 locus.
Conclusions: our findings uncover genetic determinants of human adipose tissue fatty acid composition, highlight depot-specific regulation, and point to SCD1 as a potential metabolic regulator. These results deepen understanding of lipid metabolism and its links to cardiometabolic risk.
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FA_Manuscript_clean_30July
- Accepted Manuscript
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Obesity - 2025 - Ahmed - Genetic Determinants of Fatty Acid Composition in Subcutaneous and Visceral Adipose Tissue
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Accepted/In Press date: 18 August 2025
e-pub ahead of print date: 29 September 2025
Published date: 29 September 2025
Keywords:
MRI scan, SCD1, cardiometabolic disease, fatty acids, visceral adipose tissue
Identifiers
Local EPrints ID: 508134
URI: http://eprints.soton.ac.uk/id/eprint/508134
ISSN: 1930-7381
PURE UUID: 90297498-f706-49b5-86e4-cc6724fd3c42
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Date deposited: 13 Jan 2026 18:03
Last modified: 02 May 2026 02:21
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Contributors
Author:
Altayeb Ahmed
Author:
Afreen Naz
Author:
Marjola Thanaj
Author:
Elena P. Sorokin
Author:
Brandon Whitcher
Author:
Jimmy D. Bell
Author:
E. Louise Thomas
Author:
Madeleine Cule
Author:
Hanieh Yaghootkar
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