The chromosomal localization,expression pattern and polymorphism analysis of porcine <Emphasis Type="Italic">FSCN1</Emphasis> gene differently expressed from LongSAGE library

Fascin homologue 1 (FSCN1) has established roles in cell adhesion, motility, and cell–cell interactions. Our LongSAGE analysis suggested that FSCN1 was potentially differentially expressed in prenatal pig skeletal muscle. We have cloned the genomic DNA and mRNA sequence of FSCN1 gene and mapped it to SSC3p16-p17. The FSCN1 gene was differently expressed during prenatal skeletal muscle development and exhibited different expression pattern between Tongcheng and Landrace pigs. In Tongcheng pigs, FSCN1 expression was similar at 33 and 65 days post conception (dpc), and then sharply increased to a peak at 90 dpc. In Landrace pigs, however, expression increased between 33 and 65 dpc, peaked at 65 dpc, and was down-regulated thereafter. Significantly different expression levels between Tongcheng and Landrace were observed at 65 and 90 dpc. In postnatal pigs, it was strongly expressed only in the brain, but weakly in skeletal muscle and other tissues. We initially identified 32 SNPs through genomic DNA of FSCN1 gene. Association analysis suggested that the 6840^C/T mutation was significantly associated with the age at market weight (AGE) (p = 0.0004), average day gain from birth to market (ADG1) (p = 0.0002), and average day gain at testing period (ADG2) (p < 0.0001). Our study suggested that FSCN1 gene plays an in prenatal skeletal muscle development and was a candidate gene for meat production trait.     

The microRNA expression profile in porcine skeletal muscle is changed by constant heat stress

Heat stress has profound effects on animal performance and muscle function, and microRNAs (miRNAs) play a critical role in muscle development and stress responses. To characterize the changes in miRNAs in skeletal muscle responding to heat stress, the miRNA expression profiles of longissimus dorsi muscles of pigs raised under constant heat stress (30 °C; n = 8) or control temperature (22 °C; n = 8) for 21 days were analyzed by Illumina deep sequencing. A total of 58 differentially expressed miRNAs were identified with 30 down‐regulated and 28 up‐regulated, and 63 differentially expressed target genes were predicted by miRNA–mRNA joint analysis. GO and KEGG analyses showed that the genes regulated by differentially expressed miRNAs were enriched in glucose metabolism, cytoskeletal structure and function and stress response. Real‐time PCR showed that the mRNA levels of PDK4, HSP90 and DES were significantly increased, whereas those of SCD and LDHA significantly decreased by heat exposure. The protein levels of CALM1, DES and HIF1α were also significantly increased by constant heat. These results demonstrated that the change in miRNA expression in porcine longissimus dorsi muscle underlies the changes in muscle structure and metabolism in porcine skeletal muscle affected by constant heat stress.     

Cloning and analysis of differentially expressed ESTs in swine muscle tissue

The obvious difference in muscle growth and meat quality traits exists between Chinese indigenous pig and exotic pigs. In order to study the reason of these phenotypic differences and search the potential gene related to growth and meat quality traits, silver-stained mRNA differential display technique was used to detect the difference with mRNA of loin-eye muscle tissue from maturity pigs of Lantang in Guangdong Province and Large Yorkshire. One of the newly discovered expressed sequence tag (ESTsp3) was analyzed by using bioinformatic technique. The results showed: (1) nearly 2000 cDNA fragments were detected with 30 primer pairs, and 6 differentially expressed ESTs in the Ioin-eye muscle tissues from the two breeds were isolated and obtained. The differential fragments were cloned and sequenced. The all sequences were recorded in the GenBank. (2) The 786 bp fragment of ESTsp3 was obtained with in silico elongation system, the ORF analysis revealed that it existed as an 83 aa complete open reading frame, and the elongation sequences were verified by RT-PCR. The analysis of in silico expression profile showed that ESTsp3 is expressed in various growth stages and in most tissues and organs, such as soft tissue, skin, skeletal muscle and kidney, but with variant expression quantity.     

Molecular characterization of the porcine <Emphasis Type="Italic">JHDM1A</Emphasis> gene associated with average daily gain: evaluation its role in skeletal muscle development and growth

JHDM1A, a member of the JHDM (JmjC-domain-containing histone demethylase) family, plays an central role in gene silencing, cell cycle, cell growth and cancer development through histone H3K36 demethylation modification. Here reported the cloning, expression, chromosomal location and association analysis with growth traits of porcine JHDM1A gene. Sequence analysis showed that the porcine JHDM1A gene encodes 1,162 amino acids and contains JmjC, F-box, and CXXC zinc-finger domains, which coding sequence and deduced protein shares 91 and 99% similarity with human JHDM1A, respectively. Spatio-Temporal expression analysis indicated that the mRNA expression of porcine JHDM1A had significantly higher levels in the middle (65 days) and later (90 days) period’s embryo skeletal muscle than that of 33 days, and showed a ubiquitously expression but with the highest abundance in kidney, lung and liver of an adult pig. Radiation hybrid mapping and the following linkage mapping data indicate that JHDM1A maps to 2p17 region of pig chromosome 2 (SSC2). Allele frequency differences were detected in different pig breeds and an association study was performed with a SNP within 3′UTR. The results showed that there is a tendency for allele frequencies to differ between the fast growth breeds (Yorkshire) and slow growth pig breeds (Qingping pigs, Yushan Black pigs, Erhualian pigs and Dahuabai pigs). The association analysis using a Berkshire × Yorkshire F₂ population indicated that the C224G polymorphism had a highly significant association with average daily gain on test (P < 0.01), a trend association with average back fat thickness (P < 0.07), and significant associations (P < 0.01) on percent of average drip loss, Fiber Type II Ratio, muscle shear force and average lactate content in μmol/g. This study provides the first evidence that JHDM1A is differentially expressed in porcine embryonic skeletal muscle and associated with meat growth and quality traits.     

The mRNA of lipin1 and its isoforms are differently expressed in the <Emphasis Type="Italic">longissimus dorsi</Emphasis> muscle of obese and lean pigs

Lipin1 has been documented to play an important role in adipogenesis. In the present study, the mRNA expression level of lipin1 and its isoforms in longissimus dorsi muscle were determined by semi-quantification RT-PCR in lean PIC and obese Rongchang pigs. Further, we determined mRNA expression for lipin1 and its two isoforms in Rongchang obese pigs which had either a high or low intramuscular fat content. We demonstrate for the first time that porcine lipin1 has two alternative forms, lipin-α and lipin-β. Unlike mice and humans where the lipin-β has 99 more nucleotides than lipin-α, we found that in swine, lipin-β has 108 more nucleotides than lipin-α. Our results indicate that the longissimus dorsi muscle of Rongchang obese pigs have a higher level of mRNA expression for lipin1 and its isoforms than PIC lean pigs. Furthermore, Rongchang pigs with higher intramuscular fat content had a higher lipin1 and lipin-β mRNA expression in longissimus dorsisi muscle than Rongchang pigs with lower intramuscular fat content (P < 0.05), whereas no difference was seen in lipin-α mRNA expression between Rongchang pigs with high or low intramuscular fat. The ratio of lipin-β mRNA to lipin-α mRNA was also significantly different between Rongchang pigs distinguished by a high intramuscular fat content compared with those with low intramuscular fat (P < 0.05). These data suggested that the lipin1 gene may have a crucial effect on body lipid accumulation in pigs, whereas the lipin-β isoform may play an important role in intramuscular fat deposition in obese pigs.     

Molecular characterization and expression profile of a novel porcine gene differentially expressed in the muscle and backfat tissues from Chinese Meishan and Russian Large White pigs

The mRNA differential display technique was performed to investigate the differences of gene expression in the longissimus dorsi muscle and backfat tissues from Chinese Meishan and Russian Large White pigs. One novel gene that was differentially expressed was identified through semiquantitative RT-PCR, and the cDNA complete sequence was then obtained using the rapid amplification of the cDNA ends (RACE) method. The cDNA sequence of this gene is not homologous to any of the known porcine genes. The sequence prediction analysis revealed that the open reading frame of this gene encodes a protein of 402 amino acids that contains the putative conserved transposase DDE domain, and further Blast analysis revealed that this protein has 100% homology with the Tn10 transposase from Oryza sativa, Serratia marcescens, and Salmonella, and, therefore, this gene can be defined as the swine Tn10 transposase gene. This novel porcine gene was finally assigned to Gene ID: 100049649. The RT-PCR analysis of the tissue expression profile was carried out using the tissue cDNAs of one Meishan pig as the templates, and the result indicated that this novel swine gene is moderately expressed in fat and weakly expressed in small intestine, liver, kidney, and spleen but almost not expressed in heart, ovary, muscle, and lung. Our experiment established the primary foundation for further research into the biological significance of swine Tn10 transposase gene.     

Chloride intracellular channel 5 modulates adipocyte accumulation in skeletal muscle by inhibiting preadipocyte differentiation

Intramuscular fat, the total lipid deposited within skeletal muscle, has been regarded as a potential factor responsible for meat quality in animal production and insulin resistance in humans. The objective of present study was to identify candidate genes which control intramuscular fat accumulation through using animal models. PIC pigs (lean‐type) and Rongchang pigs (obese‐type) were used. By scanning the mRNA samples of longissimus dorsi muscle with Affymetrix Gene‐Chip microarray technology, sus scrofa chloride intracellular channel 5 (CLIC5) was isolated, and its mRNA abundance and protein expression level were reversely related with the intramuscular fat content of pigs. Furthermore, over‐expression of CLIC5 dramatically increased the proliferation of 3T3‐L1 preadipocytes, while inhibited adipocytic differentiation accompanied by the down‐regulation of c/EBPα, LPL, and PPARγ protein. Our results suggest that CLIC5 might be a crucial regulator of adipose accumulation in skeletal muscle of pigs. J. Cell. Biochem. 110: 1013–1021, 2010. © 2010 Wiley‐Liss, Inc.     

Characterization of the porcine differentially expressed <Emphasis Type="Italic">PDK4</Emphasis> gene and association with meat quality

To investigate the differential expression of genes in the skeletal muscle between Yorkshire and Chinese indigenous breed Meishan pigs, suppression subtractive hybridization was carried out and many genes were proved to be expressed significantly different in the two breeds. One gene highly expressed in Meishan but lowly expressed in Yorkshire specific library, shared strong homology with human pyruvate dehydrogenase kinase 4 (PDK4). Using semi-quantity and quantity PCR, We confirmed its differential expression between the two breeds. Temporal and spatial expression analysis indicated that porcine PDK4 gene is highly expressed in skeletal muscle and the highest in neonatal pigs. Complete cDNA cloning and sequence analysis revealed that porcine PDK4 gene contains an open reading frame of 1,221 bp. The deduced amino acid sequence showed conservation in evolution. A G/A mutation in intron 9 was identified and association analysis showed that it was significantly associated with intramuscular fat, muscle water content.     

Estrous Cycle‐Dependent Expression of Estrogen Receptor α in Periodontal Tissue

Estrogen receptor α (ERα) may play important roles in many estrogen physiological effects, but little is known about the fluctuation of ERα during the estrous cycle. In this study, the dynamic expression of ERα mRNA and protein in periodontal tissue during the estrous cycle were examined. Forty 12‐week‐old female rats were divided into four groups, based on the estrous cycle stage, and sacrificed. Immunohistochemistry and in situ hybridization were used to detect dynamic changes in ERα protein and mRNA in periodontal tissue during the estrous cycle, and data were analyzed by one‐way ANOVA and cosinor analysis for temporal patterns. Significant differences (p<0.05) were found in the expression of ERα protein and mRNA among the four groups. The expression of ERα protein and mRNA exhibited an infradian rhythm with a period of about 120 h (five days). The phase and amplitude differences between ERα protein and mRNA were not significant (p>0.05). The results suggest the expression of ERα is dynamic during the estrous cycle and that in the future chronobiologic methods should be used to study the mechanism of estrogen effect on periodontal tissue.     

SMAD7, an antagonist of TGF-beta signaling,is a candidate of prenatal skeletal muscle development and weaning weight in pigs

SMAD7 promotes and enhances skeletal muscle differentiation by inhibiting transforming growth factor beta (TGF-β)/activin signaling and bone morphogenetic protein (BMP) pathways. However, its function, the mechanism regulating its translation, and its association with production meat traits remain unclear in pigs. In this study, we explored SMAD7 gene spatio-temporal and tissue distribution, conducted a single nucleotide polymorphism association analysis, and examined regulation of its expression during skeletal muscle development. We found that SMAD7 was positively related to TGF-β pathway genes and mainly expressed in prenatal developing muscle, and dual luciferase and western blot assays demonstrated that SMAD7 expression was regulated by miRNA-21 at the protein level via inhibition of mRNA translation. Finally, the association analysis showed that a single nucleotide mutation (Exon 4_28816;C/A) was significantly associated with the weaning weight of piglets among Yorkshire pigs. These data indicate that SMAD7 plays a potentially important role in mammalian prenatal skeletal muscle development and is a candidate gene for promoting greater weaning weight in pig breeding.     

CCAAT/Enhancer-Binding Protein β is not Affected by Tetrachlorodibenzo-p-dioxin (TCDD) Inhibition of 3T3-L1 Preadipocyte Differentiation

The differentiation of 3T3-L1 preadipocytes is induced by the coordinate activation of trans-acting factors in response to inducers. Depending on the time of treatment, 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) was effective in inhibiting 3T3-L1 preadipocyte differentiation and the expression of differentiation-dependent trans-acting factors. Based on glycerol-3-phosphate dehydrogenase activity, the differentiation of 3T3-L1 cells was decreased by 70% in cells treated with TCDD before the induction of differentiation, 25% during induction, and not at all after induction. This time-dependent inhibition of cell differentiation by TCDD was correlated with the levels of aryl hydrocarbon receptor (AhR). TCDD treatment decreased the mRNA levels of C/EBPα and PPAR-γ2 but did not affect the mRNA levels of RXRα and RARα. Furthermore, TCDD did not change the mRNA or protein levels of C/EBPβ, which is thought to play a role in inducing C/EBPα and PPARγ2 expression. These results suggest that TCDD inhibited 3T3-L1 preadipocyte differentiation through the AhR pathway, and the change of C/EBPβ mRNA and protein was not involved in reducing mRNA expression of C/EBPα and PPARγ2.     

野猪CAPN7基因的克隆、表达和变异分析

钙蛋白酶是细胞质中主要的蛋白水解酶,在肌肉生长、蛋白转化及嫩化过程中发挥复杂的作用。本研究利用RT-PCR、生物信息学方法克隆野猪（Sus scrofa ussuricus）CAPN7 cDNA并进行序列分析,利用相对定量RT-PCR方法研究其组织表达情况和利用PCR-SSCP方法对其进行变异分析。结果表明,野猪CAPN7基因编码区全长2 442 bp,预期编码813个氨基酸残基,多肽链中存在着calpain家族的催化结构域和催化活性中心;野猪CAPN7不同程度地表达于所检测的12种组织中,在6、9月龄野家杂交猪肌肉组织中的相对表达量高于同一时期的大白猪肌肉组织;所检测到的3种基因型在野猪、民猪和杜洛克中的分布存在着极显著差异。本研究为进一步揭示calpain7的功能提供了分子生物学基础。     

Precise editing of myostatin signal peptide by CRISPR/Cas9 increases the muscle mass of Liang Guang Small Spotted pigs

Myostatin (MSTN), a member of the transforming growth factor-β superfamily, is a negative regulator of muscle growth and development. Disruption of the MSTN gene in various mammalian species markedly promotes muscle growth. Previous studies have mainly focused on the disruption of the MSTN peptide coding region in pigs but not on the modification of the signal peptide region. In this study, the clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR associated protein 9 (Cas9) system was used to successfully introduce two mutations (PVD20H and GP19del) in the MSTN signal peptide region of the indigenous Chinese pig breed, Liang Guang Small Spotted pig. Both mutations in signal peptide increased the muscle mass without inhibiting the production of mature MSTN peptide in the cells. Histological analysis revealed that the enhanced muscle mass in MSTN^+/PVD20H pig was mainly due to an increase in the number of muscle fibers. The expression of MSTN in the longissimus dorsi muscle of MSTN^+/PVD20H and MSTN^KO/PVD20H pigs was significantly downregulated, whereas that of myogenic regulatory factors, including MyoD, Myogenin, and Myf-5, was significantly upregulated when compared to those in the longissimus dorsi muscle of wild-type pigs. Meanwhile, the mutations also activated the PI3K/Akt pathway. The results of this study indicated that precise editing of the MSTN signal peptide can enhance porcine muscle development without markedly affecting the expression of mature MSTN peptide, which could exert other beneficial biological functions in the edited pigs.

     

The Expression of Peroxisome Proliferator‐Activated Receptor γ in Pig Fetal Tissue and Primary Stromal‐Vascular Cultures

Objective: This study was designed to determine when peroxisome proliferator‐activated receptor γ (PPARγ) is expressed in developing fetal adipose tissue and stromal‐vascular adipose precursor cells derived from adipose tissue. In addition we examined developing tissue for CCAAT/enhancer‐binding protein β (C/EBPβ) expression to see if it was correlated with PPARγ expression. Pituitary function and hormones involved with differentiation (dexamethasone and retinoic acid) were also tested for their effects on PPARγ expression to determine if hormones known to affect differentiation also effect PPARγ expression in vivo and in cell culture. Research Methods and Procedures: Developing subcutaneous adipose tissues from the dorsal region of the fetal pig were collected at different gestation times and assayed using Western blot analysis to determine levels of PPARγ and C/EBPβ. Hypophysectomy was performed on 75‐day pig fetuses and tissue samples were then taken at 105 days for Western blot analysis. Adipose tissue was also taken from postnatal pigs to isolate stromal‐vascular (S‐V) cells. These adipose precursor cells were grown in culture and samples were taken for Western blot analysis to determine expression levels of PPARγ. Results: Our results indicate that PPARγ is expressed as early as 50 days of fetal development in adipose tissue and continues through 105 days. Expression of PPARγ was found to be significantly enhanced in adipose tissue from hypophysectomized fetuses at 105 days of fetal development (p < 0.05). C/EBPβ was not found in 50‐ or 75‐day fetal tissues and was found only at low levels in 105‐day tissues. C/EBPβ was not found in hypophysectomized (hypoxed) 105‐day tissue where PPARγ was elevated. S‐V cells freshly isolated from adipose tissue of 5‐ to 7‐day postnatal pigs showed the expression of PPARγ1. When S‐V cells were cultured, both PPARγ1 and 2 were expressed after the first day and continued as cells differentiated. High concentrations of retinoic acid decreased PPARγ expression in early S‐V cultures (p < 0.05). Discussion: Our data indicate that PPARγ is expressed in fetal adipose tissue very early before distinct fat cells are observed and can be expressed without the expression of C/EBPβ. The increase in PPARγ expression after hypophysectomy may explain the increase in fat cell size under these conditions. Adipose precursor cells (S‐V cells) from 5‐ to 7‐day postnatal pigs also express PPARγ in the tissue before being induced to differentiate in culture. Thus S‐V cells from newborn pig adipose tissue are probably more advanced in development than the 3T3‐L1 cell model. S‐V cells may be in a state where PPARγ and C/EBPα are expressed but new signals or vascularization are needed before cells are fully committed and lipid filling begins.