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1.
Anim Biotechnol ; 27(4): 231-7, 2016 Oct.
Article in English | MEDLINE | ID: mdl-27565866

ABSTRACT

Secreted frizzled related protein 5 (SFRP5), an anti-inflammatory adipokine, is relevant to the adipocyte differentiation. In order to clarify its role in regulating intramuscular fat (IMF) deposition in Tibetan chicken, the full-length sequence of the Tibetan chicken SFRP5 gene was cloned. The relative expression of SFRP5 gene was detected using quantitative RT-PCR in various tissues of 154 days old Tibetan chicken, as well as in breast muscle, thigh muscle, and adipose tissue at different growth stages. The results showed that SFRP5 gene was expressed in all examined tissues but highly enriched in adipose tissue. Temporal expression profile showed that the expression of SFRP5 was gradually decreased in breast muscle, but was fluctuated in thigh muscle and adipose tissue with the growth of Tibetan chicken. Furthermore, correlation analysis demonstrated that the expression of SFRP5 in breast muscle, thigh muscle and adipose tissue was correlated with IMF content at different levels. The results indicated that Tibetan chicken SFRP5 is involved in IMF deposition.


Subject(s)
Adipokines , Adipose Tissue/metabolism , Avian Proteins , Chickens , Muscle, Skeletal/metabolism , Adipokines/chemistry , Adipokines/genetics , Adipokines/metabolism , Animals , Avian Proteins/chemistry , Avian Proteins/genetics , Avian Proteins/metabolism , Cell Differentiation/genetics , Chickens/genetics , Chickens/metabolism , Chickens/physiology , Cloning, Molecular , Female , Male , Phylogeny , Wnt Signaling Pathway/genetics
2.
Gene ; 521(1): 15-23, 2013 May 25.
Article in English | MEDLINE | ID: mdl-23537996

ABSTRACT

MicroRNAs (miRNAs), a well-defined group of small RNAs containing about 22 nucleotides, participate in various biological metabolic processes. miR-27a is a miRNA that is known to regulate fat synthesis and differentiation in preadipocyte cells. However, little is known regarding the role that miR-27a plays in regulating goat milk fat synthesis. In this study, we determined the miR-27a expression profile in goat mammary gland and found that miR-27a expression was correlated with the lactation cycle. Additionally, prolactin promoted miR-27a expression in goat mammary gland epithelial cells. Further functional analysis showed that over-expression of miR-27a down-regulated triglyceride accumulation and decreased the ratio of unsaturated/saturated fatty acid in mammary gland epithelial cells. miR-27a also significantly affected mRNA expression related to milk fat metabolism. Specifically, over-expression of miR-27a reduced gene mRNA expression associated with triglyceride synthesis by suppressing PPARγ protein levels. This study provides the first experimental evidence that miR-27a regulates triglyceride synthesis in goat mammary gland epithelial cells and improves our understanding about the importance of miRNAs in milk fat synthesis.


Subject(s)
Epithelial Cells/physiology , Goats/genetics , Goats/metabolism , Mammary Glands, Animal/cytology , MicroRNAs/genetics , Triglycerides/metabolism , Animals , Epithelial Cells/metabolism , Fatty Acids/metabolism , Fatty Acids, Unsaturated/metabolism , Female , Gene Expression Regulation , Lipid Metabolism/genetics , Mammary Glands, Animal/physiology , Milk/chemistry , Milk/metabolism , Prolactin/metabolism , RNA, Messenger , Triglycerides/genetics
3.
Gene ; 505(1): 114-20, 2012 Aug 15.
Article in English | MEDLINE | ID: mdl-22634102

ABSTRACT

The liver X receptor α (LXRα) is a nuclear receptor of the transcription factor and is known to play a crucial role in lipid metabolism processes such as bile acid and fatty acid synthesis in humans and rodents. However, very little information is available on the role of LXRα in the regulation of fatty acid synthesis in the goat mammary gland. In this investigation, a cDNA was isolated from the mammary gland of Xinong Saanen dairy goats and designated as goat LXRα. RT-PCR and RACE gave rise to the full-length cDNA of LXRα, which was comprised of 1654 bp and characterized by an ORF of 1344 bp and 5'- and 3'-UTR regions of 150 and 160 bp, respectively. The deduced amino acid sequence encodes 477 amino acids with a predicted molecular weight (MW) of 50.4kDa and a theoretical isoelectric point (pI) of 6.3. Additionally, homology search and sequence multi-alignment indicated that the putative goat LXRα amino acid sequence is very similar to those of cattle, mice, rats, swine, and humans. Bioinformatic predictions demonstrated that the LXRα protein is located in the nucleus, containing characteristic signatures of a nuclear receptor with DNA-binding domain (DBD) and ligand-binding domain (LBD). Real-time quantitative PCR suggested that LXRα was predominantly expressed in the small intestine, liver, spleen and mammary gland. Treatment of goat mammary gland epithelial cells (GMEC) with different concentrations (i.e., 0.01, 0.1, 1 µM) of T0901317, a synthetic agonist of LXRα, resulted in elevated sterol regulatory element binding protein 1 (SREBP1) and fatty acid synthase (FASN) mRNA levels in response to LXRα activation. The association between different T0901317 concentrations and fatty acid composition in GMEC also was examined using gas chromatography (GC). The results showed that activation of LXRα significantly increased GMEC C18:1 and C18:2 contents, but did not affect levels of saturated fatty acids (SFA). These discoveries are consistent with the notion that LXRα plays a key role in controlling lipogenesis and regulating synthesis of unsaturated fatty acids (UFA) in the mammary gland of goats, which may prove useful in regulation of milk fat production.


Subject(s)
Fatty Acids , Goats , Mammary Glands, Animal/metabolism , Orphan Nuclear Receptors , Animals , Cattle , Cloning, Molecular , DNA, Complementary/genetics , Fatty Acid Synthases/genetics , Fatty Acid Synthases/metabolism , Fatty Acids/biosynthesis , Fatty Acids/genetics , Female , Goats/genetics , Goats/metabolism , Humans , Isoelectric Point , Liver X Receptors , Mammary Glands, Animal/cytology , Mice , Open Reading Frames/physiology , Organ Specificity/physiology , Orphan Nuclear Receptors/genetics , Orphan Nuclear Receptors/metabolism , Protein Structure, Tertiary , Rats , Response Elements/physiology , Sequence Alignment , Sterol Regulatory Element Binding Protein 1/genetics , Sterol Regulatory Element Binding Protein 1/metabolism
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