Acylation-stimulating protein (ASP): structure-function determinants of cell surface binding and triacylglycerol synthetic activity.
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Acylation-stimulating protein (ASP or C3adesArg) is a potent lipogenic factor in human and murine adipocytes and fibroblasts. The arginated form of ASP, i.e. complement C3a (C3a), stimulates immunological responses in human granulocytes, mast cells, guinea pig platelets and guinea pig macrophages; however, ASP is inactive in stimulating these responses. Thus both ASP and C3a are bioactive across species but are not functionally interchangeable. Tertiary structure of both proteins by X-ray crystallography and NMR spectroscopy predicts a tightly linked core region consisting of three alpha-helices linked via three disulphide bonds, with one of the alpha-helices extending out from the core and terminating in a flexible conformationally irregular carboxy-tail region. The present studies were undertaken in order to define the functionally active domains of ASP, distinctive from those of C3a, using chemical modifications, enzymic cleavage and synthetic peptide fragments. The results indicate that: (i) the N-terminal region (<10 amino acids) plays little role in ASP receptor binding and triacylglycerol synthesis stimulation; (ii) the native C-terminal region had no activity, but modifications which increased hydrophobicity increased receptor binding, and led to some activation of triacylglycerol synthesis stimulation; (iii) an intact disulphide-linked core region is essential for triacylglycerol synthesis stimulation activity but not for receptor interaction. Finally, basic charges in the carboxy region (His) are essential for ASP triacylglycerol synthesis stimulation but not for receptor binding, whereas both functions are eliminated by the modification of Lys in the disulphide-linked core region. The present results suggest that there are two functional domains in ASP, one that is responsible for the initial binding to the cell surface receptor, and a second domain that activates and increases triacylglycerol synthesis stimulation. This contrasts markedly with the structure-function studies of C3a where both binding competency and function were dependent on the C-terminal Arg. Thus ASP demonstrates distinct bioactivity. (+info)
Enhanced triglyceride clearance with intraperitoneal human acylation stimulating protein in C57BL/6 mice.
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Acylation stimulating protein (ASP), a novel adipocyte-derived autocrine protein, stimulates triglyceride synthesis and glucose transport in vitro in human and murine adipocytes. In vitro, chylomicrons increase ASP and precursor complement C3 production in adipocytes. Furthermore, in vivo, ASP production from human adipose tissue correlates positively with triglyceride clearance postprandially. The aim of the present study was to determine if intraperitoneally injected ASP accelerated triglyceride clearance in vivo after a fat load in C57Bl/6 mice. ASP increased the triglyceride clearance with a reduction of the triglyceride area under the curve over 6 h (AUC(0-6)) from 102.6 +/- 30.0 to 61.0 +/- 14.5 mg. dl(-1). h(-1) (P < 0.05), especially in the latter postprandial period (AUC(3-6); 56.2 +/- 18.0 vs. 24.9 +/- 8.9 mg. dl(-1). h(-1), P < 0.025). ASP also reduced plasma glucose both in the mice with accelerated plasma triglyceride clearance and in those with relatively delayed triglyceride clearance (P < 0.025). Therefore, ASP alters postprandial triglyceride and glucose metabolism. (+info)
Mice lacking acylation stimulating protein (ASP) have delayed postprandial triglyceride clearance.
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Acylation stimulating protein (ASP) is a 76 amino acid fragment of the third component of complement (C3) which is generated by the interaction of adipsin and factor B with C3. In vitro studies have shown that ASP can markedly increase triglyceride synthesis in adipocytes. To test the ASP pathway in vivo, C3-deficient mice, and therefore ASP-deficient mice, were generated and oral fat loads were conducted in wild-type (C3+/+) and mutant (C3-/-) animals. The principal results were: 1) postprandial triglyceride clearance was significantly delayed in mutant compared to wild-type mice; 2) this difference was more pronounced in males compared to females; 3) in both males and females, the differences were more pronounced in the second half of the postprandial period; 4) fasting and postprandial free fatty acid (FFA) were higher in C3(-/-) than in C3(+/+) males; and 5) intraperitoneal administration of ASP accelerated triglyceride clearance in C3(-/-) males. The data are consistent therefore, with the hypothesis that the ASP pathway is an important physiologic determinant of normal postprandial triglyceride clearance. (+info)
Neutrophils from patients with advanced human immunodeficiency virus infection have impaired complement receptor function and preserved Fcgamma receptor function.
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Interleukin (IL)-8 production by human polymorphonuclear leukocytes (PMNL) to Cryptococcus neoformans is related to complement activation. Generation of the bioactive fragments C3a and C5a is responsible for IL-8 release. IL-8 production was analyzed in response to C. neoformans by PMNL from persons with early- and late-stage (>400 and <200 CD4 cells/mm3, respectively) human immunodeficiency virus (HIV) infection who were at high risk for cryptococcosis. IL-8 release by PMNL from persons with early-stage infection and from healthy donors was similar; however, PMNL from persons with late-stage HIV infection had significantly impaired IL-8 production, which correlated with reduced IL-8 response to C3a and C5a proteins and decreased CD88 expression. Addition of murine monoclonal antibody (MAb) 18B7 promoted phagocytosis and restored IL-8 release consistent with integrity of FcgammaRIII. These results provide evidence for a selective defect in CD88 expression on PMNL from persons with late-stage HIV infection. However, Fcgamma receptor expression in PMNL appears to be intact and allows MAb to glucuronoxylomannan to positively influence PMNL function. (+info)
Differences in mRNA expression of the proteins secreted by the adipocytes in human subcutaneous and visceral adipose tissues.
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We have investigated the difference in gene expression of six proteins secreted by adipocytes in paired biopsies from visceral and abdominal subcutaneous adipose tissue in nine individuals with various degrees of obesity. The mRNAs levels of leptin, TNFalpha, angiotensinogen, acylation stimulating protein (ASP), cholesterol ester transfer protein (CETP) and phospholipid transfer protein (PLTP) were quantified by RT-competitive PCR. ASP and angiotensinogen mRNA levels were higher in the visceral fat, whereas the mRNA levels of leptin and CETP were higher in the subcutaneous depot. TNFalpha mRNA expression was similar in the two sites. For angiotensinogen, the difference was more pronounced in the subjects with body mass index (BMI) lower than 30 kg/m(2) whereas for ASP, CETP and leptin, the difference was observed regardless the BMI of the subjects. PLTP mRNA levels in subcutaneous, but not in the visceral, adipose tissue were positively related to the BMI of the subjects. These results strongly suggest that visceral and subcutaneous adipocytes may have different properties in the production of bioactive molecules. (+info)
C3a is made by proximal tubular HK-2 cells and activates them via the C3a receptor.
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BACKGROUND: Some individual components of complement are synthesized by the kidney. However, it is not known whether these form functional pathways that are able to mediate more fundamental cellular events. We examined the ability of HK-2 tubular cells to produce an intact alternative pathway of complement and to respond to the C3a fragment thus produced through the C3a receptor. METHODS: The production of mRNA for alternative pathway components was detected by reverse transcription-polymerase chain reaction, whereas protein synthesis was investigated by probing Western blots of concentrated culture supernatants with polyclonal antisera. Levels of C3a and inositol phosphate produced by HK-2 cells were determined by radioimmunoassay, whereas those of transforming growth factor-beta1 (TGF-beta1) were measured by ELISA. Intracellular tyrosine phosphorylation in response to C3a was evaluated by Western blotting and chemiluminescence. RESULTS: HK-2 cells produce the complement polypeptides C3a, C3, and factors B and H. They also contain mRNA for all components of the alternative pathway and the C3a receptor. mRNA levels were up-regulated by interleukin-1alpha, interleukin-1beta, and tumor necrosis factor-alpha. Incubation of HK-2 cells with C3a led to an increase in intracellular inositol phosphate and to tyrosine phosphorylation of at least two proteins in a pertussis-toxin-sensitive fashion. C3a and C3a desarg also up-regulated the secretion of TGF-beta1 by these cells. CONCLUSION: HK-2 cells produce an intact alternative pathway of complement. In addition, both locally produced and urinary C3a have the potential to activate these cells, resulting in inflammatory events such as TGF-beta1 production. (+info)
Acylation stimulating protein (ASP) deficiency alters postprandial and adipose tissue metabolism in male mice.
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Acylation stimulating protein (ASP) is a potent stimulator of triglyceride synthesis in adipocytes. In the present study, we have examined the effect of an ASP functional knockout (ASP(-/-)) on lipid metabolism in male mice. In both young (14 weeks) and older (26 weeks) mice there were marked delays in postprandial triglyceride clearance (80% increase at 14 weeks and 120% increase at 26 weeks versus wild type (+/+)). Postprandial nonesterified fatty acids were also increased in ASP(-/-) mice versus ASP(+/+) mice by 37% (low fat 10% Kcal) and by 73% (high fat 40% Kcal) diets, although there were no differences in fasting lipid levels. The ASP(-/-) mice had moderately increased energy intake (16% +/- 2% p < 0.0001) and reduced feed efficiency (33% increase in calories/g of body weight gained on low fat diet) versus wild type. The ASP(-/-) mice also had modest changes in insulin/glucose metabolism (30% to 40% decrease in insulin.glucose product), implying increased insulin sensitivity. As well, there were decreases in leptin (29% shift in leptin to body weight ratio) and up to a 26% decrease in specific adipose tissue depots versus the wild type mice on both low fat and high fat diets. These results demonstrate that ASP plays an important role in adipose tissue metabolism and fat partitioning. (+info)
Identification of ligand effector binding sites in transmembrane regions of the human G protein-coupled C3a receptor.
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The human C3a anaphylatoxin receptor (C3aR) is a G protein-coupled receptor (GPCR) composed of seven transmembrane alpha-helices connected by hydrophilic loops. Previous studies of chimeric C3aR/C5aR and loop deletions in C3aR demonstrated that the large extracellular loop2 plays an important role in noneffector ligand binding; however, the effector binding site for C3a has not been identified. In this study, selected charged residues in the transmembrane regions of C3aR were replaced by Ala using site-directed mutagenesis, and mutant receptors were stably expressed in the RBL-2H3 cell line. Ligand binding studies demonstrated that R161A (helix IV), R340A (helix V), and D417A (helix VII) showed no binding activity, although full expression of these receptors was established by flow cytometric analysis. C3a induced very weak intracellular calcium flux in cells expressing these three mutant receptors. H81A (helix II) and K96A (helix III) showed decreased ligand binding activity. The calcium flux induced by C3a in H81A and K96A cells was also consistently reduced. These findings suggest that the charged transmembrane residues Arg161, Arg340, and Asp417 in C3aR are essential for ligand effector binding and/or signal coupling, and that residues His81 and Lys96 may contribute less directly to the overall free energy of ligand binding. These transmembrane residues in C3aR identify specific molecular contacts for ligand interactions that account for C3a-induced receptor activation. (+info)