Calorie restriction-induced changes in the secretome of human adipocytes, comparison with resveratrol-induced secretome effects.

Obesity is characterized by dysfunctional white adipose tissue (WAT) that ultimately may lead to metabolic diseases. Calorie restriction (CR) reduces the risk for age and obesity-associated complications. The impact of CR on obesity has been examined with human intervention studies, which showed alterations in circulating adipokines. However, a direct effect of CR on the human adipocyte secretome remains elusive. Therefore, the effect of a 96h low glucose CR on the secretion profile of in vitro cultured mature human SGBS adipocytes was investigated by using proteomics technology. Low-glucose CR decreased the adipocyte triglyceride contents and resulted in an altered secretion profile. Changes in the secretome indicated an improved inflammatory phenotype. In addition, several adipocyte-secreted proteins related to insulin resistance showed a reversed expression after low-glucose CR. Furthermore, 6 novel CR-regulated adipocyte-secreted proteins were identified. Since resveratrol (RSV) mimics CR we compared results from this study with data from our previous RSV study on the SGBS adipocyte secretome. The CR and RSV adipocyte secretomes partly differed from each other, although both treatment strategies lead to secretome changes indicating a less inflammatory phenotype. Furthermore, both treatments induced SIRT1 expression and resulted in a reversed expression of detrimental adipokines associated with metabolic complications.

Hypoxia-mimetic effects in the secretome of human preadipocytes and adipocytes.

White adipose tissue (WAT) regulates energy metabolism by secretion of proteins with endocrine and paracrine effects. Dysregulation of the secretome of obesity-associated enlarged WAT may lead to obesity-related disorders. This can be caused by hypoxia as a result of poorly vascularized WAT. The effect of hypoxia on the secretome of human (pre)adipocytes is largely unknown. Therefore, we investigated the effect of CoCl2, a hypoxia mimetic, on the secretome of human SGBS (pre)adipocytes by a proteomics approach combined with bioinformatic analysis. In addition, regulation of protein secretion was examined by protein turnover experiments. As such, secretome changes were particularly associated with protein down-regulation and extracellular matrix protein dysregulation. The observed up-regulation of collagens in adipocytes may be essential for cell survival while down-regulation of collagens in preadipocytes may indicate a disturbed differentiation process. These CoCl2-induced changes reflect WAT dysfunction that ultimately may lead to obesity-associated complications. In addition, 9 novel adipocyte secreted proteins were identified from which 6 were regulated by CoCl2. Mass spectrometry data have been deposited to the ProteomeXchange with identifier PXD000162.

Resveratrol-induced changes of the human adipocyte secretion profile.

Enlarged white adipose tissue (WAT) is a feature of obesity and leads to changes in its paracrine and endocrine function. Dysfunction of WAT cells is associated with obesity-associated disorders like type 2 diabetes and cardiovascular diseases. Resveratrol (RSV), a natural polyphenolic compound, mimics beneficial effects of calorie restriction. As such, RSV seems a promising therapeutic target for obesity-associated disorders. The effect of RSV on the human adipokine profile is still elusive. Therefore, a proteomic study together with bioinformatical analysis was performed to investigate the effect of RSV on the secretion profile of mature human SGBS adipocytes. RSV incubation resulted in elevated basal glycerol release and reduced intracellular TG content. This increased intracellular lipolysis was accompanied by profound changes in the adipocyte secretion profile. Extracellular matrix proteins were down-regulated while processing proteins were mostly up-regulated after RSV treatment. Interestingly, RSV induced secretion of proteins protective against cellular stress and proteins involved in the regulation of apoptosis. Furthermore, we found a RSV-induced up-regulation of adiponectin and ApoE accompanied by a down-regulation of PAI-1 and PEDF secretion which may improve anti-inflammatory processes and increased insulin sensitivity. These effects may contribute to alleviate obesity-induced metabolic complications. In addition, two novel RSV-regulated adipocyte-secreted proteins were identified.

Identification of novel human adipocyte secreted proteins by using SGBS cells.

Adipose tissue is an endocrine organ secreting different types of proteins, known as adipokines. These adipokines play important roles in homeostasis and metabolism. Adipocyte differentiation leads to a change in adipokine secretion profile which is probably involved in disruption of homeostasis. Many adipokines have been identified but species differences and limitations of human adipose tissue material urged the need for better model systems. Here we used a human cell strain derived from a Simpson Golabi Behmel syndrome (SGBS) patient. SGBS cells have already been used in functional studies on adipocytes but not in a proteomic search for adipokines. In this study, 2D-MS/MS and nLC-MALDI-MS/MS were applied to investigate secretion profiles of SGBS adipokines. A total of 80 secreted proteins were identified; 6 proteins are novel adipocyte secreted proteins, 20 proteins have not been detected before in human adipose material and 23 additional proteins previously detected in visceral adipose tissue have been found here secreted by SGBS-cells of subcutaneous origin. It can be concluded that SGBS cells are both a valid human cell model for adipocyte secretion profiling and for searching for novel human (pre)adipocytes secreted proteins.