Impairment of adipose tissue in Prader-Willi syndrome rescued by growth hormone treatment.

BACKGROUND: Prader-Willi syndrome (PWS) results from abnormalities in the genomic imprinting process leading to hypothalamic dysfunction with an alteration of growth hormone (GH) secretion. PWS is associated with early morbid obesity and short stature which can be efficiently improved with GH treatment. OBJECTIVES: Our aims were to highlight adipose tissue structural and functional impairments in children with PWS and to study the modifications of those parameters on GH treatment. SUBJECTS AND METHODS: Plasma samples and adipose tissue biopsies were obtained from 23 research centers in France coordinated by the reference center for PWS in Toulouse, France. Lean controls (n=33), non-syndromic obese (n=53), untreated (n=26) and GH-treated PWS (n=43) children were enrolled in the study. Adipose tissue biopsies were obtained during scheduled surgeries from 15 lean control, 7 untreated and 8 GH-treated PWS children. RESULTS: Children with PWS displayed higher insulin sensitivity as shown by reduced glycemia, insulinemia and HOMA-IR compared with non-syndromic obese children. In contrast, plasma inflammatory cytokines such as TNF-α, MCP-1 and IL-8 were increased in PWS. Analysis of biopsies compared with control children revealed decreased progenitor cell content in the stromal vascular fraction of adipose tissue and an impairment of lipolytic response to ß-adrenergic agonist in PWS adipocytes. Interestingly, both of these alterations in PWS seem to be ameliorated on GH treatment. CONCLUSION: Herein, we report adipose tissue dysfunctions in children with PWS which may be partially restored by GH treatment.

Hemodynamic and renal involvement of B1 and B2 kinin receptors during the acute phase of endotoxin shock in mice.

B1 kinin receptor (B1R) is up-regulated by endotoxins and thus may represent a therapeutic target in sepsis. We investigated the expression and role of B1R and B2R in the acute phase of lipopolysaccharide (LPS)-induced endotoxin shock in C57BL/6 mice (WT) and B1R and B2R knock out mice (B1KO, B2KO). B1R mRNA was enhanced from 6 to 48 h after LPS while B2R mRNA was further increased in B1KO. Maximal hypotension was found 24 h after LPS, and was more pronounced in B1KO, but was reduced in B2KO. Glomerular filtration rate was more reduced by LPS in B1KO than in WT and B2KO. Glycemia was reduced by LPS and particularly in B1KO and B2KO mice. Mortality was increased by LPS in B1KO. These data suggest that the up-regulated B1R plays, at least transiently, a significant beneficial role in acute LPS-induced hypotension. Conversely, supra activation of B2R could be also involved in the increased mortality observed in B1KO mice.

Adipokine expression profile in adipocytes of different mouse models of obesity.

Adipose tissue produces and secretes multiple adipokines. Most studies on adipokine production/expression have been performed on whole adipose tissue. In addition, data concerning an overall of adipokine expression are scarce and can be heterogeneous depending on the obesity model studied. Our first aim was to compare the expression of adipokines involved in the interplay between obesity and insulin resistance in isolated adipocytes from different mouse models of obesity displaying different levels of weight gain and insulin sensitivity. The second aim was to determine perigonadal/subcutaneous ratio of each adipokine. Only resistin expression was decreased in obese mice without modifications in glucose and insulin blood levels. In addition to decreased levels of resistin, obesity models associated with hyperglycemia and hyperinsulinemia presented an increased expression of leptin and tumor necrosis factor-alpha (TNFalpha). Obese and diabetic mice were the only animals to exhibit high expression of plasminogen activator inhibitor type-1 and interleukin-6. All adipokines except TNFalpha were more heavily expressed in perigonadal than in subcutaneous adipocytes. Interestingly, fat-enriched diet and overweight on their own did not modify the distribution of adipokines between the two fat depots. However, severe obesity modified the distribution of proinflammatory adipokines. In conclusion, the level and number of adipokines with altered expression increased with obesity and hyperinsulinemia in mice. The physiopathological impact of depot-specific differences of adipokine expression in adipocytes remains to be clarified.