Cloning and characterization of chicken adipocyte fatty acid binding protein gene

Fatty acid binding proteins (FABPs) are members of a superfamily of lipid-binding proteins and occur intracellularly in vertebrates and invertebrates. This study was designed to clone and characterize the adipocyte fatty acid binding protein (A-FABP) gene in the chicken. PCR primers were designed according to mammalian A-FABP gene sequence to amplify partial cDNA of A-FABP gene from chicken adipose tissues, and the full length of the gene was cloned by 5'RACE and 3'RACE. Analysis of sequence showed that the cDNA of the chicken A-FABP gene was 74 and 73% homologous with porcine and human A-FABP gene, respectively. The similarity was 77, 28, and 23% at the predicted amino acid level with human A-FABP, human L-FABP, and human I-FABP, respectively. RT-PCR and Northern blot analysis indicated that the chicken A-FABP gene, similar to that of the mammal, is only expressed in fat tissues. This is the first report to identify and characterize A-FABP gene in the chicken.     

过表达鸡Gata2或Gata3基因抑制Pparγ基因的转录

脂肪细胞分化是脂肪组织发育的一个重要过程. 目前,鸡脂肪细胞分化的分子调控机制还不十分清楚. 哺乳动物的研究结果表明,转录因子GATA结合蛋白2(Gata2)和GATA结合蛋白3(Gata3)具有抑制脂肪细胞分化的功能,它们在白色脂肪组织和棕色脂肪组织中的表达模式不同. 鸡没有棕色脂肪组织,目前还没有关于Gata2 和Gata3作用于鸡脂肪细胞分化的研究报道. 本研究利用半定量RT PCR的方法分析了Gata2和Gata3基因在鸡腹部脂肪组织和前脂肪细胞中的表达规律,发现鸡腹部脂肪组织中高水平表达Gata2 基因,低水平表达Gata3基因|鸡前脂肪细胞中Gata2 基因的表达水平远高于Gata3基因的表达水平,油酸诱导分化后的鸡前脂肪细胞Gata2基因的表达水平明显下调.此外,鸡过氧化物酶体增殖体激活受体γ(Pparγ)启动子（－1985/－89）报告基因荧光素活性分析和半定量RT PCP发现,在DF1细胞中过表达Gata2 或Gata3抑制鸡PPARγ基因的转录. 本研究结果为进一步研究鸡脂肪细胞分化的分子调控机制和Gata2和Gata3基因的生物学功能提供了参考.     

Fatty acid-binding protein-hormone-sensitive lipase interaction. Fatty acid dependence on binding

Adipose lipolysis is mediated, in part, via interaction of fatty acid-binding protein (FABP) with hormone-sensitive lipase (HSL). Mice with reduced FABP content in fat (adipocyte FABP null) exhibit diminished fat cell lipolysis, whereas transgenic mice with increased FABP content in fat (epithelial FABP transgenic) exhibit enhanced lipolysis. To examine the relationship between the binding of FABP to HSL and activation of catalytic activity, isothermal titration microcalorimetry as well as kinetic analysis using a variety of FABP isoforms have been employed. In the absence of fatty acids, no FABP-HSL association could be demonstrated for any FABP form. However, in the presence of 10 microm oleate, A-FABP and E-FABP each bound to HSL with high affinity (Kd of 0.5 and 3 nM, respectively) in a approximately 1:1 molar stoichiometry, whereas liver FABP and intestinal FABP did not exhibit any association. To compare binding to catalysis, each FABP isoform was incubated with HSL in vitro, and enzymatic activity was assessed. Importantly, each FABP form stimulated HSL activity approximately 2-fold using cholesteryl oleate as substrate but exhibited no activation using p-nitrophenyl butyrate. The activation by A-FABP was dependent upon its fatty acid binding properties because a non-fatty acid binding mutant, R126Q, failed to activate HSL. These results suggest that binding and activation of HSL by FABPs are separate and distinct functions and that HSL contains a site for fatty acid binding that allows for FABP association.     

Distribution of fatty acid binding proteins in tissues and plasma of Gallus domesticus

1. Fatty acid binding activity associated with a 14,000-15,000 mol. wt protein was observed in the cytosolic fraction of liver, duodenum, myocardium, adipose, pectoral and gastrocnemius muscles of chickens. 2. Polyclonal antisera prepared against chicken liver fatty acid binding protein affinity for only liver FABP and a 14,000 mol. wt fatty acid binding protein in the intestine. 3. A fatty acid binding protein was not detected in chicken plasma.     

Adiponectin and adipocyte fatty acid binding protein in the pathogenesis of cardiovascular disease

The heart and blood vessels are surrounded by epicardial and perivascular adipose tissues, respectively, which play important roles in maintaining cardiovascular homeostasis by secreting a number of biologically active molecules, termed "adipokines." Many of these adipokines function as an important component of the 'adipo-cardiovascular axis' mediating the cross talk between adipose tissues, the heart, and the vasculature. On the one hand, most adipokines [including tumor necrosis factor-α, resistin, adipocyte fatty acid binding protein (A-FABP), and lipocalin-2] are proinflammatory and causally associated with endothelial and cardiac dysfunction by their endocrine/paracrine actions. On the other hand, adiponectin is one of the few adipokines that possesses multiple salutary effects on the prevention of cardiovascular disease, because of its pleiotropic actions on the heart and the blood vessels. The discordant production of adipokines in dysfunctional adipose tissue is a key contributor to obesity-related cardiovascular disease. This review provides an update in understanding the roles of adipokines in the pathogenesis of cardiovascular disorders associated with obesity and diabetes and focuses on the two most abundant adipokines, adiponectin and A-FABP. Indeed, data from both animal studies and clinical investigations imply that these two adipokines are prognostic biomarkers for cardiovascular disease and even promising therapeutic targets for its treatment.     

鸡PPARγ基因的表达特性及其对脂肪细胞增殖分化的影响

为分析鸡PPARγ基因的组织表达特性及其在脂肪细胞增殖和分化过程中的功能,文章以东北农业大学高、低腹脂双向选择品系肉鸡为实验材料,利用Western blotting方法,检测PPARγ基因的组织表达特性及其在高、低脂系肉鸡腹部脂肪组织间的表达差异;采用RNAi技术,在鸡原代脂肪细胞中抑制PPARγ基因的表达后,通过MTT和油红O提取比色的方法,研究鸡PPARγ基因对脂肪细胞增殖和分化的调控作用;利用Real-timePCR和Western blotting技术,分析PPARγ基因表达下调后,其他脂肪细胞分化转录因子以及与脂肪细胞分化相关的重要基因的表达变化情况。结果表明,PPARγ基因在7周龄高脂系肉鸡腹部脂肪组织、肌胃、脾脏、肾脏组织中表达量较高,在心脏中表达量较低,在肝脏、胸肌、腿肌、十二指肠中未检测到表达信号;与高脂系相比,PPARγ基因在5和7周龄低脂系肉鸡腹部脂肪组织中的表达量较低(P<0.05);PPARγ基因的表达量下降后,鸡脂肪细胞的增殖能力增强,分化能力减弱;同时,C/EBPα、SREBP1、A-FABP、Perilipin1、LPL、IGFBP-2基因的表达量均下降(P<0.05)。由此可见,PPARγ基因的表达可能与肉鸡腹部脂肪的沉积有一定的关系,该基因可能是调控鸡脂肪细胞增殖与分化的关键因子。     

Occurrence of immunoreactivity for adipocyte-type fatty acid binding protein in degenerating granulosa cells in atretic antral follicles of mouse ovary

The localization of adipocyte-type fatty acid binding protein (A-FABP) in the mature mouse ovary was examined by immuno-light and electron microscopy. Solitary round cells showing the distinct immunoreactivity for A-FABP were detected in 1–6 antral follicles. In sets of two consecutive sections in a mirror alignment on slide glasses which were treated for immunoreactivity for A-FABP and TUNEL reaction separately, cells immunoreactive for A-FABP appeared in the same antral follicles as containing cells exhibiting TUNEL-reaction. In immunoelectron microscopy, A-FABP-immunopositive cells were found to contain highly electron-dense nuclei of round, irregular or crescent shapes together with cytoplasmic remnants without any features of macrophages or cells of extrinsic origin. Therefore the cells were identified as apoptotic granulosa cells. The apoptotic cells immunoreactive for A-FABP were often seen to be enclosed/engulfed in adjacent cells exhibiting normal ultrastructures without containing numerous lysosomes. The present findings suggest that A-FABP is involved in the apoptosis of ovarian granulosa cells, probably through its interaction with peroxisome proliferator activated receptors.     

Electrostatic interaction-mediated conformational changes of adipocyte fatty acid binding protein probed by molecular dynamics simulation

Abstract

Adipocyte fatty acid binding protein (A-FABP) is a potential drug target for treatment of diabetes, obesity and atherosclerosis. Molecular dynamics (MD) simulations, principal component (PC) analysis and binding free energy calculations were combined to probe effect of electrostatic interactions of residues R78, R106 and R126 with inhibitors ZGB, ZGC and IBP on structural stability of three inhibitor/A-FABP complexes. The results indicate that mutation R126A produces significant influence on polar interactions of three inhibitors with A-FABP and these interactions are main force for driving the conformational change of A-FABP. Analyses on hydrogen bond interactions show that the decrease in hydrogen bonding interactions of residues R126 and Y128 with three inhibitors and the increase in that of K58 with inhibitors ZGC and IBP in the R126A mutated systems mostly regulate the conformational changes of A-FABP. This work shows that R126A can generate a significant perturbation on structural stability of A-FABP, which implies that R126 is of significance in inhibitor bindings. We expect that this study can provide a theoretical guidance for design of potent inhibitors targeting A-FABP.

Communicated by Ramaswamy H. Sarma     

Automated nano-electrospray mass spectrometry for protein-ligand screening by noncovalent interaction applied to human H-FABP and A-FABP

A method for ligand screening by automated nano-electrospray ionization mass spectrometry (nano-ESI/MS) is described. The core of the system consisted of a chip-based platform for automated sample delivery from a 96-well plate and subsequent analysis based on noncovalent interactions. Human fatty acid binding protein, H-FABP (heart) and A-FABP (adipose), with small potential ligands was analyzed. The technique has been compared with a previously reported method based on nuclear magnetic resonance (NMR), and excellent correlation with the found hits was obtained. In the current MS screening method, the cycle time per sample was 1.1 min, which is approximately 50 times faster than NMR for single compounds and approximately 5 times faster for compound mixtures. High reproducibility was achieved, and the protein consumption was in the range of 88 to 100 picomoles per sample. Futhermore, a novel protocol for preparation of A-FABP without the natural ligand is presented. The described screening approach is suitable for ligand screening very early in the drug discovery process before conventional high-throughput screens (HTS) are developed and/or used as a secondary screening for ligands identified by HTS.     

Requirement of continuous transcription for the synthesis of sufficient amounts of protein by a cell-free rapid translation system

To understand the key processes of cell-free protein synthesis, the synthesis of adipose-type fatty acid binding protein (A-FABP) by a rapid translation system was examined under various conditions. The synthesis of A-FABP was achieved by using an expression vector of A-FABP containing a T7 promoter. However, synthesis of A-FABP was not observed when an RNA fragment corresponding to the open reading frame of A-FABP was used in the reaction instead of the expression vector. Northern analysis revealed that the RNA that was added to the reaction mixture promptly underwent degradation. On the contrary, when the expression vector of A-FABP was employed, a strong RNA signal was observed over the entire incubation period. Thus, a continuous supply of RNA is needed in order to account for its loss via degradation to achieve the synthesis of reasonable amounts of A-FABP. Furthermore, the effect of continuous exchange of reaction mixture was also evaluated by measurement of the amount of synthesized A-FABP.     

Identification of two lipid binding proteins from liver of Gallus domesticus

1. Two low molecular weight (approximately 14,000 Da) proteins exhibiting lipid binding activity were purified from liver cytosol and identified as non-specific lipid binding protein (ns-LTP) and fatty acid binding protein (L-FABP). 2. Ligand binding assays indicated that ns-LTP exhibited greater binding activity for cholesterol and little binding of fatty acids. Conversely, L-FABP had higher relative binding activity for fatty acids but did not bind cholesterol. 3. Amino acid composition and pI data supported the identification of the chicken liver lipid binding proteins as L-FABP and ns-LTP. 4. Polyclonal antisera was prepared against each of the liver lipid binding proteins and monospecificity verified using Western blot analysis.     

Increased lipolysis in transgenic animals overexpressing the epithelial fatty acid binding protein in adipose cells

Fatty acid binding proteins (FABPs) are low-molecular-mass, soluble, intracellular lipid carriers. Previous studies on adipocytes from adipocyte fatty acid binding protein (A-FABP)-deficient mice have revealed that both basal and isoproterenol-stimulated lipolysis were markedly reduced (Coe et al. 1999. J. Lipid Res. 40: 967-972). Herein, we report the construction of transgenic mice overexpressing the FABP5 gene encoding the epithelial fatty acid binding protein (E-FABP) in adipocytes, thereby allowing evaluation of the effects on lipolysis of increased FABP levels and of type specificity. In adipocytes from FABP5 transgenic mice, the total FABP protein level in the adipocyte was increased to 150% as compared to the wild type due to a 10-fold increase in the level of E-FABP and an unanticipated 2-fold down-regulation of the A-FABP. There were no significant differences in body weight, serum FFA, or fat pad mass between wild-type and FABP5 transgenic mice. Importantly, both basal and hormone-stimulated lipolysis increased in adipocytes from the FABP5 transgenic animals. The molecular composition of the fatty acid pool from either the intracellular compartment or that effluxed from the adipocyte was unaltered. These results demonstrate that there is a positive relationship between lipolysis and the total level of FABP but not between lipolysis and a specific FABP type.     

Lipid metabolism and adipokine levels in fatty acid-binding protein null and transgenic mice

Fatty acid-binding proteins (FABPs) facilitate the diffusion of fatty acids within cellular cytoplasm. Compared with C57Bl/6J mice maintained on a high-fat diet, adipose-FABP (A-FABP) null mice exhibit increased fat mass, decreased lipolysis, increased muscle glucose oxidation, and attenuated insulin resistance, whereas overexpression of epithelial-FABP (E-FABP) in adipose tissue results in decreased fat mass, increased lipolysis, and potentiated insulin resistance. To identify the mechanisms that underlie these processes, real-time PCR analyses indicate that the expression of hormone-sensitive lipase is reduced, while perilipin A is increased in A-FABP/aP2 null mice relative to E-FABP overexpressing mice. In contrast, de novo lipogenesis and expression of genes encoding lipoprotein lipase, CD36, long-chain acyl-CoA synthetase 5, and diacylglycerol acyltransferase are increased in A-FABP/aP2 null mice relative to E-FABP transgenic animals. Consistent with an increase in de novo lipogenesis, there was an increase in adipose C16:0 and C16:1 acyl-CoA pools. There were no changes in serum free fatty acids between genotypes. Serum levels of resistin were decreased in the E-FABP transgenic mice, whereas serum and tissue adiponectin were increased in A-FABP/aP2 null mice and decreased in E-FABP transgenic animals; leptin expression was unaffected. These results suggest that the balance between lipolysis and lipogenesis in adipocytes is remodeled in the FABP null and transgenic mice and is accompanied by the reprogramming of adipokine expression in fat cells and overall changes in plasma adipokines.     

The isolation and characterisation of a putative adipocyte precursor cell type from the white adipose tissue of the chicken (Gallus domesticus)

The conditions of isolation and culture of a chicken adipose stromal-derived cell strain are described and compared with chicken lung fibroblasts in vitro. The stromal cells accumulated intracellular lipid during the post-confluency culture period, this being by contrast with lung fibroblasts. Much higher levels of intracellular lipid were accumulated by the stromal cells when whole chicken serum or chicken plasma lipoproteins were added to the culture medium. Lipoprotein lipase activity emerged in stromal cells maintained post confluency. This activity was absent from pre-confluent stromal cells and pre- and post-confluent fibroblasts. The incorporation of 14C-acetate, 3H-oleic acid and 14C-glucose into lipids by the stromal cells exhibited a pattern compatible with a concerted shift in the metabolism of the cells towards lipid storage, particularly in the form of triacylglycerols derived from exogenous fatty acids. It is proposed that, in common with the mammalian species previously studied, the white adipose tissue of the chicken (Gallus domesticus) contains a cell type with properties which allow its preliminary identification as an adipocyte precursor cell capable of adipose conversion in vitro. The confirmation of this proposition is amenable to further investigation.