An integrated single cell and spatial transcriptomic map of human white adipose tissue.

To date, single-cell studies of human white adipose tissue (WAT) have been based on small cohort sizes and no cellular consensus nomenclature exists. Herein, we performed a comprehensive meta-analysis of publicly available and newly generated single-cell, single-nucleus, and spatial transcriptomic results from human subcutaneous, omental, and perivascular WAT. Our high-resolution map is built on data from ten studies and allowed us to robustly identify >60 subpopulations of adipocytes, fibroblast and adipogenic progenitors, vascular, and immune cells. Using these results, we deconvolved spatial and bulk transcriptomic data from nine additional cohorts to provide spatial and clinical dimensions to the map. This identified cell-cell interactions as well as relationships between specific cell subtypes and insulin resistance, dyslipidemia, adipocyte volume, and lipolysis upon long-term weight changes. Altogether, our meta-map provides a rich resource defining the cellular and microarchitectural landscape of human WAT and describes the associations between specific cell types and metabolic states.

Long-term improvement of adipocyte insulin action during body weight relapse after bariatric surgery: a longitudinal cohort study.

BACKGROUND: There are few long-term mechanistic studies in adipose tissue that investigate the metabolic effects of bariatric surgery. Changes in lipogenesis may be involved in long-term weight development. OBJECTIVES: To investigate the long-term effect of bariatric surgery on lipogenesis in abdominal fat cells and whether surgical treatment could induce an epigenetic memory that would maintain improved lipogenesis in spite of body weight relapse. SETTING: Karolinska University Hospital in Stockholm County, Sweden. METHODS: A total of 22 women with obesity living in the Stockholm area were examined before, 2, 5, and 10 years after bariatric surgery. Abdominal adipose tissue biopsies were obtained. Fat cells were isolated and spontaneous and insulin stimulated glucose incorporation into lipids were assayed. CpG-methylation profiling was performed on adipocytes using the Infinium EPIC BeadChips. RESULTS: Bariatric surgery was associated with improvement in adipocyte spontaneous and insulin stimulated lipogenesis, which was maintained despite some later weight regain (29 % of initial weight loss). There was also an increase in fat cell size between 2- and 10-year follow-up, albeit not to presurgery levels. There were 7729 differentially methylated CpG sites (DMS) at 2 years that showed no sign of return to baseline at either 5 or 10 years. Merging results with expression profiles identified 1259 genes with DMS which showed early response or continual change in expression in one direction after surgery. Upregulated genes with DMS were enriched in gene sets linked to cellular response to insulin stimulus (e.g., IRS1, IRS2, PDE3B, and AKT2) and regulation of lipid metabolic processes. CONCLUSION: Bariatric surgery leads to long-term improvement of lipogenesis and insulin responsiveness in subcutaneous adipocytes in women in spite of some partial body weight regain postoperatively. This may to some extent be explained by epigenetic modifications of fat cell function.