Progranulin serum levels and gene expression in subcutaneous vs visceral adipose tissue of severely obese patients undergoing bariatric surgery.

BACKGROUND: Progranulin represents an adipokine putatively mediating insulin resistance and inflammation. Data in humans are sparse, and the source of circulating progranulin in obesity is unknown. OBJECTIVES: Serum progranulin concentrations and subcutaneous (sc) as well as visceral (vis) adipose tissue (AT) progranulin expression were quantified in a large cohort of patients with obesity undergoing bariatric surgery (BS) (n = 153) or a low-calorie diet (LCD) (n = 121). COHORTS AND METHODS: Paired serum and AT mRNA samples were obtained from patients with severe obesity undergoing BS (ROBS cohort; Research in Obesity and Bariatric Surgery). Serum progranulin was measured by ELISA in both cohorts, and AT mRNA expression was analysed by quantitative real-time PCR in bariatric patients. RESULTS: There was no gender-specific effect in serum progranulin or AT progranulin expression. Importantly, circulating progranulin was independent from adipose tissue gene expression in paired samples. sc AT progranulin expression was higher than in vis AT (P = 0.027), and there was a positive correlation between sc AT and vis AT gene expression (P < 0.001; r = +0.34). Serum progranulin strongly and rapidly increased after BS within 3 days and remained elevated up to 12 months. Serum progranulin was strongly correlated with serum CTRP-3 levels. CONCLUSIONS: The present study provides detailed progranulin gene expression data in sc and vis AT in a large, prospective and observational cohort of patients with severe obesity. Serum progranulin concentrations are not predicted by sc or vis AT progranulin gene expression. Thus, AT seems not to be the main source of circulating progranulin levels in obesity.

Regulation of natriuretic peptides postprandially in vivo and of their receptors in adipocytes by fatty acids in vitro.

BACKGROUND AND AIM: Natriuretic peptides (NPs) and their receptors gain attention regarding adipocyte function. It was the aim to investigate the expression of natriuretic peptide receptors NPR-A, NPR-B and NPR-C during adipocyte differentiation (AD), upon stimulation with fatty acids (FA), and in murine and human adipose tissue depots (AT) of patients undergoing bariatric surgery (n = 44). PATIENTS, MATERIAL AND METHODS: The postprandial regulation of NT-proANP and NT-proBNP levels was measured by ELISA and was studied in two cohorts of healthy individuals undergoing an oral glucose tolerance test (OGTT) (n = 100) and an oral lipid tolerance test (OLTT) (n = 100). Adipocyte mRNA expression was investigated by quantitative real-time PCR. RESULTS: During AD, an early expression pattern could be described for NPR-C, a bimodal expression for NPR-B and a late expression pattern for NPR-A. NPR-A and NPR-B expression was high in epididymal and subcutaneous AT but low in peri-renal AT of mice. NPR-C showed a differential expression profile. FA stimulation caused a significant and differential regulation of NPRs in adipocytes. Serum NT-proANP and NT-proBNP concentrations did not change during OGTT, whereas NT-proANP significantly declined during OLTT. Basal NT-proANP and NT-proBNP concentrations were positively correlated with each other and with FGF-19 and FGF-21 levels. CONCLUSION: Adipocytes and AT show a characteristic expression of NPRs. FA are able to regulate NPR expression differentially. There is a postprandial and negative regulation of serum NT-proANP concentrations after OLTT and of NPR-A after FA stimulation. Both effects could represent a novel hypothetical negative feedback mechanism on adipocyte lipolysis.

Influence of organic phase change materials on the physical and mechanical properties of HDPE and PP polymers.

In this work, the compatibility of four commercially available organic phase change materials, with melting points in the temperature range 44-58 °C and with engineering polymers high density polyethylene (HDPE) and polypropylene (PP), is investigated. These polymers are used for the design and manufacture of hot and cold thermal energy storage tanks or encapsulation media. The study involves interaction of polymer specimens with the four different phase change materials for a period of time up to 40 days under high temperature. The mass change, mechanical strength and properties of the polymers were tested. The wt% uptake reached 6.4 wt% for PP and 5.8 wt% for HDPE. The strength of HDPE is immediately decreased by Day 7 but at a significant level restored after Day 28. No such effect was found for PP. The surface wetting as well as thermal properties measured (DSC) on the specimens provided an insight on the interaction of the absorbed phase change materials with the polymer. An in depth distribution over time was observed with significant decrease in the mechanical strength of the polymers. An epoxy-based resin was also evaluated under the same conditions and is suggested as a protective coating.