Immune profile of adipose tissue from youth with obesity and asthma.

BACKGROUND: Obesity is a risk factor for paediatric asthma. Obesity-mediated systemic inflammation correlates with metabolic dysregulation; both are associated with asthma burden. However, adipose tissue inflammation is not defined in obesity-related asthma. OBJECTIVE: Define adipose tissue inflammation and its association with metabolic measures in paediatric obesity-related asthma. METHODS: Cellular profile of stromal vascular fraction from visceral adipose tissue (VAT) from youth with obesity-related asthma (n = 14) and obesity without asthma (n = 23) was analyzed using flow cytometry and correlated with metabolic measures. RESULTS: Compared to youth without asthma, VAT from youth with obesity-related asthma was enriched for leukocytes and macrophages, including M1 and dual M1M2 cells, but did not differ for CD4+ lymphocytes, and endothelial cells, their progenitors, and preadipocytes. M1 macrophage counts positively correlated with glucose, while M1M2 cells, CD4+ lymphocytes, and their subsets negatively correlated with high-density lipoprotein, in youth with obesity without asthma, but not among those with obesity-related asthma. CONCLUSIONS: Enrichment of macrophage-mediated inflammation in VAT from youth with obesity-related asthma supports its role in systemic inflammation linked with asthma morbidity. Lack of correlation of VAT cells with metabolic dysregulation in youth with obesity-related asthma identifies a need to define distinguishing factors associated with VAT inflammation in obesity-related asthma.

Mesenchymal stem cell-derived small extracellular vesicles alleviate the immunometabolic dysfunction in murine septic encephalopathy.

Sepsis is a life-threatening organ dysfunction caused by a dysregulated host response to infection that results in high mortality and long-term sequela. The central nervous system (CNS) is susceptible to injury from infectious processes, which can lead to clinical symptoms of septic encephalopathy (SE). SE is linked to a profound energetic deficit associated with immune dysregulation. Here, we show that intravenous administration of adipose tissue mesenchymal stem cell (MSC)-derived small extracellular vesicles (sEVs) in septic mice improved disease outcomes by reducing SE clinical severity, restoring aerobic metabolism, and lowering pro-inflammatory cytokines in the cerebellum, a key region affected by SE. Our high throughput analysis showed that MSC-derived sEVs partially reversed sepsis-induced transcriptomic changes, highlighting the potential association of miRNA regulators in the cerebellum of MSC-derived sEV-treated mice with miRNAs identified in sEV cargo. MSC-derived sEVs could serve as a promising therapeutic agent in SE through their favorable immunometabolic properties.

Gut microbiome shifts in adolescents after sleeve gastrectomy with increased oral-associated taxa and pro-inflammatory potential.

Background: Bariatric surgery is highly effective in achieving weight loss in children and adolescents with severe obesity, however the underlying mechanisms are incompletely understood, and gut microbiome changes are unknown. Objectives: 1) To comprehensively examine gut microbiome and metabolome changes after laparoscopic vertical sleeve gastrectomy (VSG) in adolescents and 2) to assess whether the microbiome/metabolome changes observed with VSG influence phenotype using germ-free murine models. Design: 1) A longitudinal observational study in adolescents undergoing VSG with serial stool samples undergoing shotgun metagenomic microbiome sequencing and metabolomics (polar metabolites, bile acids and short chain fatty acids) and 2) a human-to-mouse fecal transplant study. Results: We show adolescents exhibit significant gut microbiome and metabolome shifts several months after VSG, with increased alpha diversity and notably with enrichment of oral-associated taxa. To assess causality of the microbiome/metabolome changes in phenotype, pre-VSG and post-VSG stool was transplanted into germ-free mice. Post-VSG stool was not associated with any beneficial outcomes such as adiposity reduction compared pre-VSG stool. However, post-VSG stool exhibited an inflammatory phenotype with increased intestinal Th17 and decreased regulatory T cells. Concomitantly, we found elevated fecal calprotectin and an enrichment of proinflammatory pathways in a subset of adolescents post-VSG. Conclusion: We show that in some adolescents, microbiome changes post-VSG may have inflammatory potential, which may be of importance considering the increased incidence of inflammatory bowel disease post-VSG.