Sumei Zhao

Expression of lipogenic genes during porcine intramuscular preadipocyte differentiation

Intramuscular fat (IMF) content plays an important role in meat quality. Triglyceride (TG) metabolism in intramuscular adipocytes is strongly associated with the intramuscular fat deposition. To better understand the mechanisms leading to IMF deposition we compared the expression levels of genes related to preadipocyte differentiation and lipogenesis in the intramuscular preadipocytes isolated from the longissimus muscle of Wujin and Landrace pigs. The results showed that the intramuscular preadipocytes could differentiate into mature adipocytes in vitro. Triglyceride content in adipocytes isolated from Wujin pigs was higher than Landrace pigs during the middle and later phases of preadipocyte differentiation. The expression levels of genes related to preadipocyte differentiation such as PPARG and CEBPA showed differential expression between Wujin and Landrace porcine adipocytes during the early stage of differentiation. The expression levels of lipogenic genes such as FASN and SREBF1 were significantly higher in Wujin porcine intramuscular preadipocytes than in Landrace intramuscular preadipocytes at the middle and the later stages of differentiation. This suggests that preadipocyte differentiation and lipogenesis exhibited breed-related scheduling.

Expression levels of candidate genes for intramuscular fat deposition in two Banna mini-pig inbred lines divergently selected for fatness traits

Intramuscular fat (IMF) content plays an important role in meat quality. Many genes involved in lipid and energy metabolism were identified as candidate genes for IMF deposition, since genetic polymorphisms within these genes were associated with IMF content. However, there is less information on the expression levels of these genes in the muscle tissue. This study aimed at investigating the expression levels of sterol regulating element binding protein-1c (SREBP-1c), diacylglycerol acyltransferase (DGAT-1), heart-fatty acids binding protein (H-FABP), leptin receptor (LEPR) and melanocortin 4 receptor (MC4R) genes and proteins in two divergent Banna mini-pig inbred lines (BMIL). A similar growth performance was found in both the fat and the lean BMIL. The fat meat and IMF content in the fat BMIL were significantly higher than in the lean BMIL, but the lean meat content was lower. The serum triacylglycerol (TAG) and free fatty acid (FFA) contents were significantly higher in the fat than in the lean BMIL. The expression levels of SREBP-1c, DGAT-1 and H-FABP genes and proteins in fat BMIL were increased compared to the lean BMIL. However, the expression levels of LEPR and MC4R genes and proteins were lower.

Anti-adipocyte scFv-Fc Antibody Suppresses Subcutaneous Adipose Tissue Development and Affects Lipid Metabolism in Minipigs

Anti-adipocyte monoclonal antibody has been shown to reduce body fat mass in animals. Here, we investigated the effects of an anti-adipocyte antibody (single-chain variable fragment and crystallizable fragment, scFv-Fc) on pig subcutaneous adipose tissue development and lipid metabolism. The scFv-Fc antibody did not alter feed intake or body weight of treated pigs. It suppressed subcutaneous adipose tissue development by reducing the percentage of larger adipocytes, which led to a reduction in body fat mass and subcutaneous adipose tissue thickness. Body fat mass was reduced by reducing triglyceride biosynthesis and promoting triglyceride lipolysis in adipose tissue. There was an increase in lipoprotein lipase mRNA expression in adipose tissue and activity in blood and an enhanced transportation of circulating high-density lipoprotein, low-density lipoprotein, and free fatty acids. Blood concentrations of triglyceride, total cholesterol, glucose, insulin, and adiponectin and mRNA expression of adiponectin in adipose tissue remained unaffected. These findings suggest that anti-adipocyte scFv-Fc antibody may have an application for reducing body fat mass in obese subjects.

The effect of dietary protein levels on the expression of genes coding for four selected protein translation initiation factors in muscle tissue of Wujin pig

The objective of this study was to investigate the regulatory mechanism underlying the increased muscle protein accumulation in pigs while were fed a high protein diet. The eukaryotic initiation factors (eIFs) have been reported to involve in muscle protein synthesis. We investigated the mRNA and protein expression levels of eIF2B1, 4A1, 4B and 4E in Wujin pigs fed either a high protein (HP: 18%) or a low protein (LP: 14%) diet at 30, 60 or 100 kg body weight, based on real-time PCR and western blotting analyses. Our results indicated that the expression levels of eIF2B1 mRNA and protein were increased by HP diet at all body weight. The HP diet showed higher mRNA and protein levels of eIF4B gene at 60 and 100 kg. The protein expression of eIF4E phosphorylation was increased by HP diet only at 30 kg. These data suggested that the HP diet promoted porcine muscle protein accumulation mainly by up-regulating eIF2B1, 4B and 4E rather than 4A1 expression along the growth stages.

Effect of monoclonal antibody on expression of lipid metabolism related genes in porcine adipocytes

In order to study the mechanism of monoclonal antibody (McAb) against a porcine 40-kDa adipocyte-specific plasma membrane protein in reducing fat deposition, porcine primary adipocytes were treated with the McAb during the process of adipocyte differentiation; its effect on expression of lipid metabolism related genes was investigated. Adipocytes were treated with 1-methyl-3-isobutylmethylxanthine (IDX) plus 10 microg/mL of the McAb or without McAb. The mRNA levels of adipocyte differentiation related genes (PPARgamma and C/EBPalpha), lipid metabolism related genes (FAS, HSL, CPT-1B, DGAT and A-FABP) and adiponectin gene (AdipoQ) were determined using real-time quantitative PCR. The results showed that the differentiated adipocyte number and triglyceride (TG) content in adipocytes treated with the McAb were lower than that in cells without McAb during the whole process of adipocyte differentiation. The McAb significantly reduced mRNA expression of PPARgamma, C/EBPalpha, FAS, DGAT, A-FABP and adiponectin genes, but increased mRNA expression of HSL and CPT-1B genes during the medium and latter stage of adipocyte differentiation. This suggested that the McAb decreased triglycerol accumulation in adipocyte by both inhibiting adipocyte differentiation and regulating lipid metabolism, especially at the medium and latter stage of porcine adipocyte differentiation.

Isolation, Sequence Identification and Tissue Expression Distribution of Three Novel Porcine Genes-UBC1, TRA2A and SH21A

Abstract Liu G.Y., Zhao, S.M., Song, X.L., Wang, J. and Gao, S.Z. 2008. Isolation, sequence identification and tissue expression distribution of three novel porcine genes-UBC1, TRA2A and SH21A. J. Appl. Anim. Res., 33:33–38. Ubiquitin-conjugating enzyme E2–25 kDa (UBC1), transformer-2 protein homolog TRA-2 alpha (TRA2A) and SH2 domain protein 1A (SH21A) genes are most important genes highly related or potentially related with the porcine production. The complete coding sequences of these three porcine genes were amplified using the reverse transcriptase polymerase chain reaction (RT-PCR) based on the conserved sequence information of the mouse or other mammals and referred highly homologous pig ESTs. Porcine UBC1 gene encodes a protein of 200 amino acids which contains the conserved putative UBCc domain and has high homology with the UBC1 proteins of three species-human, mouse and bovine (100%). The porcine TRA2A gene encodes a protein of 279 amino acids that contains the conserved putative RNA recognition motif (RRM) domain and has high homology with the TRA2A proteins of two species-human (99%) and mouse (97%). The porcine SH21A gene encodes a protein of 128 amino acids that contains the conserved putative src homology 2 (SH2) domain and has high homology with the SH21A proteins of two species human (92%) and mouse (86%). The tissue expression analysis indicated that the swine UBC1, TRA2A and SH21A genes were expressed in different tissues including lung, fat, small intestine, large intestine, liver, muscle, spleen and kidney. Our experiment is the first to establish the primary foundation for further research on these three swine genes.