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Abstract
Dysfunctional visceral adipose tissue (VAT) in obesity is associated with type 2 diabetes (DM) but underlying mechanisms remain unclear. Our objective in this discovery analysis was to identify genes and proteins regulated by DM to elucidate aberrant cellular metabolic and signaling mediators. We performed label-free proteomics and RNA-sequencing analysis of VAT from female bariatric surgery subjects with DM and without DM (NDM). We quantified 1965 protein groups, 23 proteins, and 372 genes that were differently abundant in DM vs. NDM VAT. Proteins downregulated in DM were related to fatty acid synthesis and mitochondrial function (fatty acid synthase, FASN; dihydrolipoyl dehydrogenase, mitochondrial, E3 component, DLD; succinate dehydrogenase-α, SDHA) while proteins upregulated in DM were associated with innate immunity and transcriptional regulation (vitronectin, VTN; endothelial protein C receptor, EPCR; signal transducer and activator of transcription 5B, STAT5B). Transcriptome indicated defects in innate inflammation, lipid metabolism, and extracellular matrix (ECM) function, and components of complement classical and alternative cascades. The VAT proteome and transcriptome shared 13 biological processes impacted by DM, related to complement activation, cell proliferation and migration, ECM organization, lipid metabolism, and gluconeogenesis. Our data revealed a marked effect of DM in downregulating FASN. We also demonstrate enrichment of complement factor B (CFB), coagulation factor XIII A chain (F13A1), thrombospondin 1 (THBS1), and integrins at mRNA and protein levels, albeit with lower q-values and lack of Western blot or PCR confirmation. Our findings suggest putative mechanisms of VAT dysfunction in DM.
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1 Wayne State University, Proteomics Core Facility, Detroit, USA (GRID:grid.254444.7) (ISNI:0000 0001 1456 7807)
2 University of Michigan Medical School, Department of Surgery, Ann Arbor, USA (GRID:grid.214458.e) (ISNI:0000000086837370)
3 University of Michigan Medical School, Department of Chemistry, Ann Arbor, USA (GRID:grid.214458.e) (ISNI:0000000086837370)
4 University of Michigan Medical School, Department of Molecular and Integrative Physiology, Ann Arbor, USA (GRID:grid.214458.e) (ISNI:0000000086837370); University of Michigan Medical School, Division of Gastroenterology, Department of Internal Medicine, Ann Arbor, USA (GRID:grid.214458.e) (ISNI:0000000086837370); University of Michigan Medical School, Rogel Cancer Center, Ann Arbor, USA (GRID:grid.214458.e) (ISNI:0000000086837370)
5 University of Michigan Medical School, Department of Surgery, Ann Arbor, USA (GRID:grid.214458.e) (ISNI:0000000086837370); Veterans Affairs Ann Arbor Healthcare System, Department of Surgery, Ann Arbor, USA (GRID:grid.413800.e) (ISNI:0000 0004 0419 7525)
6 University of Michigan Medical School, Department of Pediatrics and Communicable Diseases, Ann Arbor, USA (GRID:grid.214458.e) (ISNI:0000000086837370); University of Michigan Medical School, Graduate Program in Immunology, Ann Arbor, USA (GRID:grid.214458.e) (ISNI:0000000086837370); University of Michigan Medical School, Graduate Program in Cellular and Molecular Biology, Ann Arbor, USA (GRID:grid.214458.e) (ISNI:0000000086837370)
7 University of Michigan Medical School, Department of Surgery, Ann Arbor, USA (GRID:grid.214458.e) (ISNI:0000000086837370); Veterans Affairs Ann Arbor Healthcare System, Department of Surgery, Ann Arbor, USA (GRID:grid.413800.e) (ISNI:0000 0004 0419 7525); University of Michigan, Section of General Surgery, Department of Surgery, Ann Arbor, USA (GRID:grid.214458.e) (ISNI:0000000086837370)