The extracellular vesicle transcriptome provides tissue-specific functional genomic annotation relevant to disease susceptibility in obesity

Emeli Chatterjee; Michael J. Betti; Quanhu Sheng; Phillip Lin; Margo P. Emont; Guoping Li; Kaushik Amancherla; Marta Garcia-Contreras; Priyanka Gokulnath; Worawan B. Limpitikul; Olivia Rosina Whittaker; Kathy Luong; Christopher Azzam; Denise Gee; Matthew Hutter; Karen Flanders; Parul Sahu; Charles R. Flynn; Jonathan Brown; Danxia Yu; Evan D. Rosen; Kendall Van-Keuren Jensen; Eric R. Gamazon; Ravi Shah; Saumya Das

doi:10.1016/j.xgen.2025.100925

The extracellular vesicle transcriptome provides tissue-specific functional genomic annotation relevant to disease susceptibility in obesity

Emeli Chatterjee
, Michael J. Betti
, Quanhu Sheng
, Phillip Lin
, Margo P. Emont
, Guoping Li
, Kaushik Amancherla
, Marta Garcia-Contreras
, Priyanka Gokulnath
, Worawan B. Limpitikul
, Olivia Rosina Whittaker
, Kathy Luong
, Christopher Azzam
, Denise Gee
, Matthew Hutter
, Karen Flanders
, Parul Sahu
, Charles R. Flynn
, Jonathan Brown
, Danxia Yu

Evan D. Rosen, Kendall Van-Keuren Jensen, Eric R. Gamazon, Ravi Shah, Saumya Das

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

2 Scopus citations

Abstract

We characterized circulating extracellular vesicles (EVs) in obese and lean humans, identifying transcriptional cargo differentially expressed in obesity (277 unique genes; false discovery rate < 10%). Since circulating EVs may have broad origin, we compared this obesity EV transcriptome with expression from human visceral-adipose-tissue-derived EVs from freshly collected and cultured biopsies from the same obese individuals, observing high concordance. Using a comprehensive set of adipose-specific epigenomic and chromatin conformation assays, we found that the differentially expressed transcripts from the EVs were those regulated in adipose by body mass index-associated SNPs (p < 5 × 10⁻8) from a large-scale genome-wide association study (GWAS). Using a phenome-wide association study of the regulatory SNPs for the EV-derived transcripts, we identified a substantial enrichment for inflammatory phenotypes, including type 2 diabetes. Collectively, these findings represent the convergence of the GWAS (genetics), epigenomics (transcript regulation), and EV (liquid biopsy) fields, enabling powerful future genomic studies of complex diseases.

Original language	English (US)
Article number	100925
Journal	Cell Genomics
Volume	5
Issue number	9
DOIs	https://doi.org/10.1016/j.xgen.2025.100925
State	Published - Sep 10 2025
Externally published	Yes

Keywords

BMI
GWAS
PheWAS
RNA
extracellular vesicles
obesity
plasma
visceral adipose tissue

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology (miscellaneous)
Genetics

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10.1016/j.xgen.2025.100925

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Chatterjee, E., Betti, M. J., Sheng, Q., Lin, P., Emont, M. P., Li, G., Amancherla, K., Garcia-Contreras, M., Gokulnath, P., Limpitikul, W. B., Whittaker, O. R., Luong, K., Azzam, C., Gee, D., Hutter, M., Flanders, K., Sahu, P., Flynn, C. R., Brown, J., ... Das, S. (2025). The extracellular vesicle transcriptome provides tissue-specific functional genomic annotation relevant to disease susceptibility in obesity. Cell Genomics, 5(9), Article 100925. https://doi.org/10.1016/j.xgen.2025.100925

Chatterjee, E, Betti, MJ, Sheng, Q, Lin, P, Emont, MP, Li, G, Amancherla, K, Garcia-Contreras, M, Gokulnath, P, Limpitikul, WB, Whittaker, OR, Luong, K, Azzam, C, Gee, D, Hutter, M, Flanders, K, Sahu, P, Flynn, CR, Brown, J, Yu, D, Rosen, ED, Van-Keuren Jensen, K, Gamazon, ER, Shah, R & Das, S 2025, 'The extracellular vesicle transcriptome provides tissue-specific functional genomic annotation relevant to disease susceptibility in obesity', Cell Genomics, vol. 5, no. 9, 100925. https://doi.org/10.1016/j.xgen.2025.100925

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title = "The extracellular vesicle transcriptome provides tissue-specific functional genomic annotation relevant to disease susceptibility in obesity",

abstract = "We characterized circulating extracellular vesicles (EVs) in obese and lean humans, identifying transcriptional cargo differentially expressed in obesity (277 unique genes; false discovery rate < 10\%). Since circulating EVs may have broad origin, we compared this obesity EV transcriptome with expression from human visceral-adipose-tissue-derived EVs from freshly collected and cultured biopsies from the same obese individuals, observing high concordance. Using a comprehensive set of adipose-specific epigenomic and chromatin conformation assays, we found that the differentially expressed transcripts from the EVs were those regulated in adipose by body mass index-associated SNPs (p < 5 × 10−8) from a large-scale genome-wide association study (GWAS). Using a phenome-wide association study of the regulatory SNPs for the EV-derived transcripts, we identified a substantial enrichment for inflammatory phenotypes, including type 2 diabetes. Collectively, these findings represent the convergence of the GWAS (genetics), epigenomics (transcript regulation), and EV (liquid biopsy) fields, enabling powerful future genomic studies of complex diseases.",

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author = "Emeli Chatterjee and Betti, \{Michael J.\} and Quanhu Sheng and Phillip Lin and Emont, \{Margo P.\} and Guoping Li and Kaushik Amancherla and Marta Garcia-Contreras and Priyanka Gokulnath and Limpitikul, \{Worawan B.\} and Whittaker, \{Olivia Rosina\} and Kathy Luong and Christopher Azzam and Denise Gee and Matthew Hutter and Karen Flanders and Parul Sahu and Flynn, \{Charles R.\} and Jonathan Brown and Danxia Yu and Rosen, \{Evan D.\} and \{Van-Keuren Jensen\}, Kendall and Gamazon, \{Eric R.\} and Ravi Shah and Saumya Das",

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doi = "10.1016/j.xgen.2025.100925",

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AU - Chatterjee, Emeli

AU - Betti, Michael J.

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AU - Lin, Phillip

AU - Emont, Margo P.

AU - Li, Guoping

AU - Amancherla, Kaushik

AU - Garcia-Contreras, Marta

AU - Gokulnath, Priyanka

AU - Limpitikul, Worawan B.

AU - Whittaker, Olivia Rosina

AU - Luong, Kathy

AU - Azzam, Christopher

AU - Gee, Denise

AU - Hutter, Matthew

AU - Flanders, Karen

AU - Sahu, Parul

AU - Flynn, Charles R.

AU - Brown, Jonathan

AU - Yu, Danxia

AU - Rosen, Evan D.

AU - Van-Keuren Jensen, Kendall

AU - Gamazon, Eric R.

AU - Shah, Ravi

AU - Das, Saumya

PY - 2025/9/10

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N2 - We characterized circulating extracellular vesicles (EVs) in obese and lean humans, identifying transcriptional cargo differentially expressed in obesity (277 unique genes; false discovery rate < 10%). Since circulating EVs may have broad origin, we compared this obesity EV transcriptome with expression from human visceral-adipose-tissue-derived EVs from freshly collected and cultured biopsies from the same obese individuals, observing high concordance. Using a comprehensive set of adipose-specific epigenomic and chromatin conformation assays, we found that the differentially expressed transcripts from the EVs were those regulated in adipose by body mass index-associated SNPs (p < 5 × 10−8) from a large-scale genome-wide association study (GWAS). Using a phenome-wide association study of the regulatory SNPs for the EV-derived transcripts, we identified a substantial enrichment for inflammatory phenotypes, including type 2 diabetes. Collectively, these findings represent the convergence of the GWAS (genetics), epigenomics (transcript regulation), and EV (liquid biopsy) fields, enabling powerful future genomic studies of complex diseases.

AB - We characterized circulating extracellular vesicles (EVs) in obese and lean humans, identifying transcriptional cargo differentially expressed in obesity (277 unique genes; false discovery rate < 10%). Since circulating EVs may have broad origin, we compared this obesity EV transcriptome with expression from human visceral-adipose-tissue-derived EVs from freshly collected and cultured biopsies from the same obese individuals, observing high concordance. Using a comprehensive set of adipose-specific epigenomic and chromatin conformation assays, we found that the differentially expressed transcripts from the EVs were those regulated in adipose by body mass index-associated SNPs (p < 5 × 10−8) from a large-scale genome-wide association study (GWAS). Using a phenome-wide association study of the regulatory SNPs for the EV-derived transcripts, we identified a substantial enrichment for inflammatory phenotypes, including type 2 diabetes. Collectively, these findings represent the convergence of the GWAS (genetics), epigenomics (transcript regulation), and EV (liquid biopsy) fields, enabling powerful future genomic studies of complex diseases.

KW - BMI

KW - GWAS

KW - PheWAS

KW - RNA

KW - extracellular vesicles

KW - obesity

KW - plasma

KW - visceral adipose tissue

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The extracellular vesicle transcriptome provides tissue-specific functional genomic annotation relevant to disease susceptibility in obesity

Abstract

Keywords

ASJC Scopus subject areas

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