Cloning of Perilipin 2 Gene and Investigating its Expression Level in Porcine Longissimus Muscle

Volume 5 | Issue 1 Cloning of Perilipin 2 Gene and Investigating its Expression Level in Porcine Longissimus Muscle Yang M#1, Dong K#2, Shu X1, Li W1, Huang Y1, Pan H*1, and Zhao S*1 1Yunnan Key Laboratory of Animal Nutrition and Feed Science, Yunnan Agricultural University, Kunming 650201, China 2Faculty of Food Science and Technology, Yunnan Agricultural University, Kunming 650201, China #These authors contributed equally to this work and regarded as the co-first author *Corresponding author(s): Pan H, Zhao S, Yunnan Key Laboratory of Animal Nutrition and Feed Science, Yunnan Agricultural University, Kunming 650201, China, E-mail: 286589395@qq.com, zhaosm2009@126. com

In pig production, intramuscular fat (IMF) content is one of the determinant factors of meat quality characteristics such as tenderness, juiciness and flavor level [1].IMF content varies in different pig breeds [2].Particularly, IMF content is higher in the Chinese local pigs than in other commercial pigs [3][4][5].The Wujin pig is one of the Chinese local pigs, which is regarded as fatty genotype [6,7].The Landrace pig is considered a lean breed.The IMF content is significantly different between these two breeds [8].Therefore, the underlying mechanism of fat deposition in fatty and lean pigs could be elucidated using these two pig models [8].
List of Abbreviations : IMF: Intramuscular fat; PLIN2: Perilipin 2; ADPH: Adipophilin; ADRP: Adipose Difference-Related Protein; CDS: Coding Domain Sequence; RNA: Ribonucleic acids; RT: Reverse Transcription; PLINs: Lipid Droplet-Associated Proteins Many efforts have been carried out to identify key factors and genes affecting IMF [9].Porcine perilipin 2 (PLIN2) is also called adipophilin (ADPH), adipose difference-related protein (ADRP).PLIN2 genetic variability has been more intensively investigated in Chinese, Korean breeds, characterized by higher fat deposition, and compared with European pig breeds, more intensively selected for lean meat [10][11][12].The biological role and mapping localization suggested that porcine PLIN2 could be a promising functional and positional candidate gene for intramuscular fat deposition in pigs [13][14][15][16].However, little information is available about the nucleotides and amino acids sequence and the expression level between Chinese and European pig breeds.
Therefore, the objective of this research was to clone the CDS (coding domain sequence) sequence, compare the similarity of nucleotide and deduced amino acids sequence between Wujin and Landrace pigs and detect the expression level of gene as well as analyze the association between the expression level and intramuscular fat in Wujin pigs.

Animal and samples
The feeding and diet of the used pigs has been detailed by Zhao et al. [8].Briefly, six Wujin and six Landrace pigs were used.All pigs had free access to water from nipple drinkers.The diets were not isonitrogenous or isoenergetic because the growth rate of the two breeds was so divergentand were provided ad libitum.When the pigs reached 100 kg body weight, they were transported to Yunnan Agricultural Center Meats Laboratory and slaughtered after electrical stunning.Longissimus muscle samples from the last ribs were collected from every animal.Samples were cut into small pieces, frozen in liquid nitrogen, and stored at −75 °C for later analyses.
Total RNA was extracted from all the samples using the Total RNA Extraction Kit (Invitrogen, America) as per the manufacturer's instructions.Total RNA concentration was quantified by measuring the absorbance at 260 nm in a photometer (Eppendorf Biophotometer).Ratios of absorption (260/280 nm) of all preparations were between 1.8 and 2.0.Aliquots of RNA samples were subjected to electrophoresis through a 1.4% agarose formaldehyde gel to verify their integrity.
Reverse transcription was performed using the RNA (2 μg) described above in a final volume of 25 μL containing 10 units of MMLV reverse transcriptase (Promega, Belgium), 1 mM dNTP mixture (Promega, Belgium), 40 units of recombinant RNasin ribonuclease inhibitor (Promega, Belgium) and 0.5μL of oligo (dT) 18 (Promega, Belgium) in sterilized water and buffer supplied by the manufacturer.After incubation at 42 °C for 60 min, the mixture was heat treated at 95 °C for 5 min.cDNA samples were kept in −20 °C for detection.

cDNA clone
Aliquots of the PCR products were analyzed by electrophoresis in a 1.5% agarose gels.The gels were stained with ethidium bromide and photographed with a digital camera.The final products were cloned into pGEM-T Easy vector (Takara, Japan).
White colonies were picked up with a sterile wooden toothpick and were inoculated into tubes with 3mL of agar containing 100 mg/mL ampicillin.Tubes were incubated on a shaker at 37 °C and 100 rpm for 12-18 h.Plasmids were extracted using a Qiagen Plasmid Purification Mini Kit (Qiagen) according to the manufacturer recommendations.Five µL of plasmid, 12 μL of DNase free water, 1 μL of either 10 U/µL EcoRI or 10 U/µL XbaI and 2 μL of the respective 10X reaction buffer were added to a final volume of 20 μL and incubated for 1 h at 37 °C.As a control, 3 µL of uncut plasmid and 17 µL of DNase free water were added to a final volume of 20 µL and incubated for 1 h at 37 °C.The vector containing the insert had 5 EcoRI and 1 XbaI restriction enzyme sites.Following diagnostic digestion, digestion products were loaded on a 1% agarose gel with ethidium bromide.Following verification of the presence of insert, purified plasmids were sequenced (Takara, Japan).
Real-time PCR was performed to quantify the expression abundance of PLIN2 mRNA.The 25 μl PCR mixture contained 12.5 μl of 2×iQ™ SYBR Green Supermix, 0.5μl (10 mM) of each primer and 1μl of cDNA.Mixtures were incubated in an iCyler iQ Realtime Detection system (Bio-Rad, America) programmed to conduct 40 cycles (95 °C for 15s, 65 °C for 35s and 72 °C for 65s).The primers of PLIN2 gene were F: 5'-TCTATCTGTCCTGGGTGG -3' , R: 5'-ATCGTGGATGTTCTGTGG -3' .The control gene was 18S rRNA.The Primers of 18S rRNA were F: 5'-CTGCCTCCTTGGATGTG-3' , R: 5'-GCGGCTTTGGTGACTCTA-3' .The quantification of the transcripts was performed using a standard curve with 10-fold serial of dilution of cDNA.Melt curve was conducted to ensure that only a single PCR product was amplified.Samples were assayed and each experiment was repeated at least twice.Control reactions (without template or Taq enzyme) were set for each sample.

Total RNA extraction and reverse transcript
The reverse transcription (RT) reaction mix (2 µL) was used for PCR in a final volume of 25 µL containing 1.5 mM MgCl2, 200μM dNTP, 1.5 IU Taq polymerase and 50 pmol of the forward and reverse primers.The primers was F:5'-GAAGAAACATGGCATCCGTTGCTGT-3' ,R:5'-GCTGCTTCTCCACTTGGGAATTGTC-3' .The primers were designed based on the porcine sequence (Accession No. NM_214200.1).The fragment length of the amplified PCR product was 1412bp.

Real-time RT-PCR
The cDNA sequence prediction was conducted using GenScan software (http://genes.mit.edu/GENSCAN.html).The protein prediction and analysis were performed using the Conserved Domain Architecture Retrieval Tool of BLAST at the National Center
Comparison of gene expression between Wujin and Landrace pigs was accomplished by Student's t-test.The statistical analyses were performed using the SAS software system (SAS Inst.Inc., Cary, NC).

Cloning and Sequencing of Genes
To clone and sequence the PLIN2 gene for Wujin and Landrace pigs, reverse transcriptase PCR was used to amplify the PLIN2 gene.The amplified sequence length of PLIN2 was 1, 412bp (Figure 1).Sequencing of the resulting cDNA showed the complete coding sequence of PLIN2 to be 1,038 bp.Sequences from Landrace pigs kept the same as the GenBank (accession numbers, NM_214200.1).Sequences from Wujin pigs were deposited in the GenBank database (accession numbers, JN616387).The PLIN2 gene between these two breeds is highly conserved.Nucleotide sequences analysis showed that the Wujin pigs.The nucleic acids sequence from Wujin pigs was 99% identical to the Landrace (Figure 2).

Physical and chemical characteristics of deduced proteins
The molecular weight and theoretical pI of the deduced amino acid sequence of PLIN2 in Wujin and Landrace pigs was approximately 50179.76 and 50248.90Da and a of 6.18 and 7.08 respectively, predicted by theCompute pl/Mw program.The predicted phosphorylation sites showed that the PLIN2 protein in Wujing and Landraces pigs had Ser: 17, Thr: 11, Tyr: 7 and Ser: 16, Thr: 12, Tyr: 7 respectively, which have been shown in Figure 4.The difference of Ser and Thr phosphorylation sites exited in 35 and 433.The PLIN2 had the same N-glycosylated sites in Wujin and Landrace pigs.Four potential N-glycosylated sites were indicated (Figure 5).PLIN2 protein from Wujin and Landrace pigs belongs to hydrophilic protein (Figure 6).

Expression Level of PLIN2 mRNA
Relative expression level of PLIN2 gene was detected using real-time PCR method.Figure 8 shows that the expression levels of PLIN2 gene in the Wujin pigs were significantly higher than Landrace pigs.

Discussion
Several protein components associated with the surface of LDs have been identified.They are loosely grouped as a small protein family sharing a common N-terminal motif, called the PAT ((Perilipin, Adipophilin and Tip47) domain [20].PLIN2 is one of them, which is a 50-kDa protein expressed in the majority of tissues [21], involved in the uptake of long chain fatty acids [22] and in the formation and stabilization of lipid droplets [23].PLIN2 plays a role in protecting the neutral lipid stores from the activity of cytosolic lipases [24], and therefore in regulating lipid storage, in particular in non-adipose tissues.In fact, in adipose tissue PLIN2 is gradually replaced by PLIN1 during adipocyte maturation, whereas in other tissues, as skeletal muscle, PLIN2 remains the main lipid droplet associated protein [15].Swiss-Model is classical online modeling software, and widely used for modeling unknown protein sequence by homology.RasMol was used for visualizing the PDB files generated by Swiss-model in cartoon or three-dimensional (3-D) format.PLIN2 protein were Modeled by Swiss-Model, only high quality models with low E-value, low absolute value Z-Score, high QMEAN4 value were selected [19].Homology modeling indicated that the ADPH C terminus forms a four-helix bundle motif.This structure can form stable membrane bilayer interactions [27].PLIN2 C terminus is an independently folding α-helical structure that is relatively resistant to urea denaturation [27].Liposome binding studies showed that the purified C terminus binds to phospholipid membranes through electrostatic dependent interactions, and cell culture studies documented that it localizes to the plasma membrane [27].The present study showed PLIN2 belong to the hydrophilic protein.PLIN2 C terminus forms a stable membrane binding helical structure that is important for lipid droplets secretion.
Skeletal muscle lipid droplet-associated proteins (PLINs) are thought to regulate lipolysis through protein-protein interactions on the lipid droplet surface [28].Non-ubiquitous PLIN2 expression in pigs has been recently reported by Tao et al. [29], which indicated that PLIN2 gene did not express in muscle tissue.Davoli et al. [12] also detected PLIN2 gene expression analysis in skeletal muscle of Italian Large White and Italian Duroc pigs divergent for backfat thickness and visible intermuscular fat showed a trend of higher expression level in pigs with higher intermuscular fat.In the present study, PLIN2 expressed in the muscle tissue and its expression level in Wujin pigs was significantly higher than Landrace pigs.Meanwhile, IMF content in Wujin pigs is significantly higher compared with Landrace pigs [8].PLIN2 localized within myofibers with high lipid content [16].PLIN2 expression was higher in higher IMF muscles [12].Therefore, this data suggested that the expression level of PLIN2 gene would contribute to the IMF content.
In conclusion, the mutation of nucleic acids and amino acids between Wujin and Landrace could not affect the structure of PLIN2.However, the difference of expression level between two pig breeds would be responsible for the IMF content variants.
The study showed that analysis of PLIN2 nucleotide and amino acid sequences revealed a high degree of identity between the Wujin and Landrace breeds, although base changes resulted in amino acid substitutions in the translated proteins.The amino acid substitutions led to the differential molecular weight and theoretical pI value as well as the predicted phosphorylation sites.Heid et al. [25] reported that the open reading frame of adipophilin encodes a polypeptide with a calculated molecular weight of 48.1 kDa and an isoelectric point of 6.72.Further analysis showed that the N-glycosylated sites and hydrophilic characteristic as well as the SWISS-MODEL of PLIN2 protein were kept the same between Wujin and Landrace pigs.The function of PLIN2 protein was decided by the conformation of the protein structure [26].Thus, this data suggested that the mutation of nucleic acids and amino acids sequences could not affect the function of PLIN2 to form and stabilize the lipid droplets.Moreover, the difference of IMF content between Wujin and Landrace pigs could not result from the mutation of nucleotide and animo acids sequence of PLIN2.

Figure 1 :
Figure 1: Amplification fragment of PLIN2 gene M: DL2000marker; 1,2: PCR product from Wujin and Landrace pigs Computer generation of the AA sequence from the nucleic acid sequence revealed open reading frames of 459 AA.The deduced amino acid sequences of PLIN2 showed 99% identity between Wujin and Landrace pigs (Figure 3).The differences in nucleotide and amino acid sequences between the two breeds were given as following.The base changes at nucleotides 80 (G to A), 315 (A to G), 399 (A to G), 904 (C to T), 936 (A to G), 992 (A to G), 998 (G to A) and 1304 (G to A).The nucleotides changes at 80, 904, 992, 998 and 1304 resulted in the amino acids mutation at 27 (G to D), 302 (A to C), 331 (N to S), 333 (R to Q) and 435 (R to H).

Figure 2 :
Figure 2: Comparison of Nucleotide acids sequence between Wujin and Landrace pigs Sequence indicates Landrace pigs and Sus was Wujin pigs

Figure 3 :Figure 4 :
Figure 3: Comparison of amino acids sequences between Wujin and Landrace pigs Sequence indicates Landrace pigs and Sus was Wujin pigs

Figure 5 :
Figure 5: N-Glycosylation sites Prediction of PLIN2 deducted amino acids sequence

Figure 7 :
Figure 7: Swiss-model of PLIN2 deduced amino acids sequence A was cartoon model.B was estimated absolute quality of models

Received Date :
October 28, 2016 Accepted Date: February 25, 2017 Published Date: February 28, 2017 Annex Publishers | www.annexpublishers.comAll experiment procedures were performed according to the Guide for Animal Care and Use of Laboratory Animals in the Institutional Animal Care and Use Committee of Yunnan Agricultural University.The experimental protocol was approved by the Department Animal Ethics Committee of Yunnan Agricultural University.