Project description:Visceral adiposity is a risk factor for severe COVID-19, and a link between adipose tissue infection and disease progression has been proposed. Here we demonstrate that SARS-CoV-2 infects human adipose tissue and undergoes productive infection in human primary adipose-derived stromal-vascular cells differentiated into adipocytes. However, the permissiveness to infection and the cellular response depends on the anatomical origin of the cells and the viral lineage. Cells of visceral adipose tissue origin express more ACE2 and are more permissive to SARS-CoV-2 infection than their subcutaneous counterpart. SARS-CoV-2 infection leads to inhibition of lipolysis in cells of subcutaneous origin, while in visceral fat cells, it results in higher expression of pro-inflammatory cytokines. Viral load and cellular response are attenuated when visceral adipose tissue cells are infected with the SARS-CoV-2 gamma variant. A similar degree of cell death occurs 4-days after SARS-CoV-2 infection, regardless of the cell origin or viral lineage. Hence, SARS-CoV-2 infects human adipose tissue cells, replicating and altering cell function and viability in a fat depot- and viral lineage-dependent fashion.

Project description:Adipose tissue is one of the main regulative sites for energy metabolism. Excess lipid storage and expansion of white adipose tissue (WAT) is the primary contributor to obesity, a strong predisposing factor for development of insulin resistance. Sentrin-specific protease (SENP) 2 has been shown to play a role in metabolism in murine fat and skeletal muscle cells, and we have previously demonstrated its role in energy metabolism of human skeletal muscle cells. In the present work, we have investigated the impact of SENP2 on fatty acid and glucose metabolism in primary human fat cells by using cultured primary human adipocytes to knock down the SENP2 gene. Glucose uptake and oxidation, as well as accumulation and distribution of oleic acid into complex lipids were decreased while oleic acid oxidation was increased in SENP2-knockdown cells compared to control cells. Furthermore, de novo lipogenesis was reduced by SENP2-knockdown in the adipocytes and expression of several metabolically important regulators and markers of browning of WAT were upregulated both on gene and protein level. In conclusion, SENP2 is an important regulator of energy metabolism in primary human adipocytes, and the results indicates a potential role in browning of the cells as well.

Project description:EPA might have a special and unique role in the immune system of Atlantic salmon, especially when exposed to viral infection. Adipose tissue is an endocrine organ that secretes various adipokines involved in metabolic regulation and in inflammatory responses. This study investigates the role of EPA during a simulated viral infection in salmon adipocytes.

Project description:We studied the influence of the oleic acid content of the diet on adipose tissue transcriptome. Iberian pigs were fed a standard (C) or a high oleic sunflower oil enriched (HO) diet. Transcriptome analyses were performed in adipose tissue samples (inner layer) obtained at slaughter (110 kg live weight) employing the Affymetrix porcine GeneChip. Normalized and filtered microarray expression data (background corrected and base-2 logarithmic-transformed) were analyzed through Bayesian inference using the GEAMM v.1.6 program. Statistically significant expression differences (FDR<0.10) between C and HO groups were observed for a total of ten probes corresponding to nine different known genes. Six genes were overexpressed in the HO group and three were overexpressed in the C group. Expression differences between groups ranged from 1.38 to 2.75-fold. The two most significantly DE genes were related with immune defense (TCRB and GPR183) and others were related with nutrient metabolism as glicerolipid metabolism (GK), phospholipid and sphingolipid metabolism (PPM1L), carbohydrate metabolism (FBP2) aminoacid metabolism and energy homeostasis (PRSS35 and CKB) and gene expression regulation and adipogenesis (RXRG). 15 Iberian castrated male pigs were adscribed to one of two experimental groups at 28 kg live weight (7 animals in Control group and 8 animals in High Oleic group). Nutritional treatment was maintained until sacrifice of the animals at 110 kg of live weight. At the sacrifice, backfat adipose tissue was sampled from each animal at the level of the last rib.

Project description:Comparing the transcriptomic program induced by oleic acid to that of the pro-inflammatory arachidonic acid, we find that Tregs sorted from peripheral blood and adipose of healthy donors transcriptomically resemble the oleic acid in vitro treated Tregs, whereas Tregs obtained from the adipose tissue of relapsing-remitting MS patients more closely resemble an arachidonic acid profile

Project description:Comparing the transcriptomic program induced by oleic acid to that of the pro-inflammatory arachidonic acid, we find that Tregs sorted from peripheral blood and adipose of healthy donors transcriptomically resemble the oleic acid in vitro treated Tregs, whereas Tregs obtained from the adipose tissue of relapsing-remitting MS patients more closely resemble an arachidonic acid profile

Project description:Comparing the transcriptomic program induced by oleic acid to that of the pro-inflammatory arachidonic acid, we find that Tregs sorted from peripheral blood and adipose of healthy donors transcriptomically resemble the oleic acid in vitro treated Tregs, whereas Tregs obtained from the adipose tissue of relapsing-remitting MS patients more closely resemble an arachidonic acid profile

Project description:Obesity in humans is associated with worsened health outcomes following infections compared to non-obese individuals. Here, we examined the effects of adipose tissue and obesity on T cell responses to virus infection in mice. Lymphocytic choriomeningitis virus (LCMV) grew to high titer in adipose tissue. Virus-specific T cells enter the adipose tissue to resolve infection but then remain as a memory population distinct from memory T cells in lymphoid tissues. Memory CD4+ and CD8+ T cells residing in adipose were abundant, accounting for roughly 10% of all virus-specific memory T cells. Diet-induced obesity increased memory T cell number in adipose and spleen. Upon re-challenge infection, memory T cells caused severe pathogenesis, leading to sharply increased lipase levels, calcification of adipose tissue, pancreatitis, and reduced survival in obese mice but not lean mice. Thus, obesity leads to a unique form of viral pathogenesis involving memory T cell-dependent adipocyte destruction and collateral damage to other tissues.

Project description:This ordinary differential equation model is described in the following article: "Autocrine and paracrine interferon signalling as ‘ring vaccination’ and ‘contact tracing’ strategies to suppress virus infection in a host" G. Michael Lavigne, Hayley Russell, Barbara Sherry and Ruian Ke DOI: 10.1098/rspb.2020.3002 Comment: This model is based on the ordinary differential equations of the non-spatial model of well-mixed viral infection stated in the manuscript (Eq. 2.1 in the article). Abstract: The innate immune response, particularly the interferon response, represents a first line of defence against viral infections. The interferon molecules produced from infected cells act through autocrine and paracrine signalling to turn host cells into an antiviral state. Although the molecular mechanisms of IFN signalling have been well characterized, how the interferon response collectively contribute to the regulation of host cells to stop or suppress viral infection during early infection remain unclear. Here, we use mathematical models to delineate the roles of the autocrine and the paracrine signalling, and show that their impacts on viral spread are dependent on how infection proceeds. In particular, we found that when infection is well-mixed, the paracrine signalling is not as effective; by contrast, when infection spreads in a spatial manner, a likely scenario during initial infection in tissue, the paracrine signalling can impede the spread of infection by decreasing the number of susceptible cells close to the site of infection. Furthermore, we argue that the interferon response can be seen as a parallel to population-level epidemic prevention strategies such as ‘contact tracing’ or ‘ring vaccination’. Thus, our results here may have implications for the outbreak control at the population scale more broadly.

Project description:Activated type 2 innate lymphoid cells (ILC2s) accumulate and promote inflammatory resolution and tissue repair in host defense against acute respiratory viral infections. However, the heterogeneity of ILC2s in the lung and the mechanisms by which ILC2 cells contribute to tissue repair remain elusive. Using single-cell RNA-sequencing (scRNA-seq), we identified a transcriptionally distinct ILC2 subset that showed enrichment for wound healing signature genes and the transcription factor BATF. Notably, BATF promoted the proliferation and function of ILC2s and restricted their plasticity during infection with influenza virus. In the absence of BATF, ILC2s lost their immune protective properties and obtained pathogenic ILC3-like function, which led to persist neutrophil infiltration, tissue damage and lethality. Mechanistically, BATF directly bound the cis-regulatory elements of wound healing genes, maintained their chromatin accessibility and promoted their expression. Lastly, BATF played an important role in an IL-33-ST2 feed-forward loop that supports ILC2 cell identity and function. Collectively, our findings shed light on a BATF-dependent ILC2 program, thereby providing a potential therapeutic target for terminating detrimental inflammation during acute viral infection.