Shih Torng Ding scite author profile

In mice, adiponectin receptors (AdipoR) have been found to mediate the effect of adiponectin in muscle and liver in regulation of glucose and fatty acid metabolism. The purposes of this study were to clone these receptors from pig tissues by reverse transcription PCR using mRNA from skeletal muscle and adipose tissue and to investigate the expression of these genes in various pig tissues. Sequences of adiponectin, AdipoR1, and AdipoR2 were determined and found to be highly homologous to those of the human and mouse. The AA sequences predicted for the full-length cDNA of porcine adiponectin, AdipoR1, and AdipoR2 were similar to those of the human and mouse, ranging from 81 to 97% homology, suggesting similar functions of these genes in pigs as in other species. Transcripts for adiponectin were abundant in s.c. adipose tissue in Lee-Sung pigs and in crossbred pigs. Transcripts for AdipoR1 were abundant in heart and skeletal muscle and also detected to a lesser extent (P < 0.05) in adipose tissue, liver, and spleen of the Lee-Sung pigs. Transcripts for AdipoR2 were abundant in s.c. adipose tissue and present to a lesser extent (P < 0.05) in the liver, heart, skeletal muscle, and spleen. These results indicate that the effect of adiponectin may be mediated through these receptors in various porcine tissues. Fasting for 8 h did not have a significant effect on the expression of adiponectin and AdipoR1 mRNA, but it increased (P < 0.05) the AdipoR2 mRNA in the s.c. adipose tissue of crossbred pigs. These results indicate that the AdipoR2-mediated fatty acid oxidation may be responsible at least in part for the fasted state fatty acid oxidation in porcine adipose tissues. The successful cloning of pig adiponectin and adiponectin receptors will enhance the understanding of the involvement of these genes in regulating energy metabolism in pigs.

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Precision biomarker discovery powered by microscopy image fusion-assisted high spatial resolution ambient ionization mass spectrometry imaging

Lin

Chen

Huang

et al. 2020

Analytica Chimica Acta

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Mass spectrometry imaging (MSI) using ambient ionization technique enables a direct chemical investigation of biological samples with minimal sample pretreatment. However, detailed morphological information of the sample is often lost due to its limited spatial resolution. In this study, predictive high-resolution molecular imaging was produced by the fusion of ambient ionization MSI with optical microscopy of routine hematoxylin and eosin (H&E) staining produces. Specifically, desorption electrospray ionization (DESI) and nanospray desorption electrospray ionization (nanoDESI) mass spectrometry are employed to visualize lipid and protein species on mice tissue sections. The resulting molecular

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The effect of dietary docosahexaenoic acid on the expression of porcine lipid metabolism-related genes1

Hsu

Wang

Liu

et al. 2004

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To study the effect of dietary docosahexaenoic acid (DHA) on the expression of adipocyte determination and differentiation-dependent factor 1 (ADD1) mRNA in pig tissues, weaned, crossbred pigs (30 d of age) were fed either 2% (as-fed basis) tallow or DHA oil for 18 d. Body weight of the pigs was not affected by different dietary fatty acid (FA) compositions. The plasma and liver FA composition reflected the composition of the diet. The adipose tissue and skeletal muscle FA composition only partially reflected the diet, indicating either a slower FA turnover or that a greater proportion of the FA in these tissues is from endogenous FA synthesis. The ADD1 is an important transcription factor that modulates transcription of FA synthase to regulate the endogenous FA synthesis in the liver and adipose tissue. The ADD1 mRNA was decreased (P < 0.05) in the liver of DHA-treated pigs compared with that of the tallow-treated pigs. The diets did not have an effect on the ADD1 mRNA in pig adipose tissue. The ADD1 transcript was not detected in pig skeletal muscle. These results indicate that significant enrichment of liver DHA content inhibits the expression of ADD1 mRNA. Such an effect is similar to that reported in porcine differentiating adipocytes cultured with DHA. The liver and muscle acyl CoA oxidase mRNA concentration was increased (P < 0.05) by DHA oil treatment, suggesting that DHA treatment may increase peroxisomal fatty acid oxidation in these two tissues. Our present observations demonstrate that dietary DHA enrichment not only affects tissue DHA concentration but also mildly modifies the expression of genes related to fatty acid metabolism in the porcine liver and skeletal muscle.

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Serum Amyloid A Protein Regulates the Expression of Porcine Genes Related to Lipid Metabolism3

Chen

Wang

Liu

et al. 2008

The Journal of Nutrition

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Serum amyloid A protein (SAA) is an apolipoprotein that can replace apolipoprotein A1 (apoA1) as the major apolipoprotein of HDL. Porcine hepatic SAA mRNA is increased by dietary docosahexaenoic acid (DHA) treatment. The purpose of this study was to investigate the role of SAA protein in regulating gene expression related to lipid metabolism in pigs. First, we demonstrated that the 100-micromol/L DHA treatment increased SAA and apoA1 mRNA expression in porcine hepatic cell cultures (P < 0.05). Secondly, we produced porcine SAA recombinant protein and found that the addition of SAA to porcine preadipocytes in culture stimulated interleukin-6 (IL-6) mRNA expression (P < 0.05), indicating a similar biological function of porcine SAA and human SAA. We also found PPARalpha and PPARgamma mRNA were decreased (40 and 60%, respectively) in differentiated adipocytes after treatment with 2 mumol/L SAA. SAA treatment also increased inflammatory cytokine gene expression (IL-6 and tumor necrosis factor alpha) and glycerol release (P < 0.05), indicating increased lipolysis. Because the expression of perilipin, a lipid droplet-protective protein, was reduced by the SAA treatment, we hypothesized that SAA increased lipolysis by decreasing the expression of perilipin, which would then allow an increase in hormone sensitive lipase activity. In conclusion, we demonstrated that the DHA-induced SAA gene expression decreased PPAR expression and consequently downregulated the expression of several genes involved in lipid metabolism. Accordingly, SAA may play a critical role in mediating the function of dietary DHA on lipid metabolism and could be a factor in regulating obesity.

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Effect of feed restriction on adipose tissue transcript concentrations in genetically lean and obese pigs.

McNeel

Ding

Smith

et al. 2000

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To determine possible genetic influences on the steady-state concentrations of several key transcription factor transcripts and the transcript concentrations for adipocyte-characteristic proteins, young, genetically obese and lean pigs were given ad libitum access or feed or were restrictively fed at 50% of ad libitum intake for 5 wk. Obese pigs were smaller and fatter than lean pigs, whether intake was ad libitum or restrictive. Plasma protein, albumin, and cholesterol concentrations were greater in obese than in lean pigs. Plasma NEFA, blood urea nitrogen, triacylglycerols, and postprandial glucose and insulin concentrations were less (P < .02) in pigs fed restrictively than in pigs with ad libitum access to feed, regardless of genetic group. The adipose tissue glucose transporter 4, fatty acid synthase, and leptin transcript concentrations were greater (P < .05) in obese than in lean pigs. The CCAAT/enhancer binding proteins beta and alpha, adipocyte fatty acid binding protein, hormone-sensitive lipase, and the beta1-adrenergic receptor transcript concentrations tended (P < . 10) to be greater in adipose tissue from obese than in that from lean pigs. Several other transcripts were numerically greater in obese than in lean pigs. The data collectively suggest that messenger RNA concentration for several adipose tissue proteins is a contributing factor to the excess fat deposition in these obese pigs. Restricted feeding did not change the concentration of any transcript except that for adipocyte fatty acid binding protein, which was reduced. The accretion of fat was markedly reduced in the restrictively fed pigs, but this diminution does not seem to be regulated by modulation of messenger RNA concentration.

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Shih Torng Ding

Cloning and expression of porcine adiponectin and adiponectin receptor 1 and 2 genes in pigs1

Precision biomarker discovery powered by microscopy image fusion-assisted high spatial resolution ambient ionization mass spectrometry imaging

The effect of dietary docosahexaenoic acid on the expression of porcine lipid metabolism-related genes1

Serum Amyloid A Protein Regulates the Expression of Porcine Genes Related to Lipid Metabolism3

Effect of feed restriction on adipose tissue transcript concentrations in genetically lean and obese pigs.

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