Functional Characterization of the Chicken Peptide Transporter 1 (Pept1, Slc15a1) Gene

Dietary amino acids can be transported into intestinal epithelial cells as di- and tripeptides by the action of the peptide transporter, PepT1 (SLC15A1). Expression of the chicken PepT1 (cPepT1) gene changes in response to dietary crude protein level; however, the molecular mechanism governing this regulation is unknown. This study analyzed the promoter region of the cPepT1 gene. Using deletion analysis, positive-acting (? 314 to ? 261, ? 169 to ? 155, and ? 120 to ? 60) and negative-acting (? 419 to ? 386 and ? 214 to ? 169) regions were mapped in transfected chick embryo fibroblasts (CEF). The addition of neither amino acids Phe, Arg, or Val, nor the dipeptides Gly-Sar (glycyl-sarcosine), Gly-Pro, Gly-Phe, Met-Pro, Met-Lys or Lys-Lys, had an effect on cPepT1 promoter activity in transfected CEF. The cPepT1 promoter was more active in CEF and primary chicken intestinal cells than in chicken liver cells. This study represents a functional characterization of the molecular regulation of the chicken PepT1 gene.     

Mammalian Pol III Promoter H1 can Transcribe shRNA Inducing RNAi in Chicken Cells

Double-stranded RNA-mediated interference (RNAi) has recently emerged as a powerful reverse genetic tool to silence gene expression in multiple organisms. RNAi based on DNA vector is not sufficiently established in chicken species. The present study was performed to evaluate RNAi induced by shRNA transcribed from mammalian Pol III promoter H1 in the chicken cells by using a dual fluorescence reporter assay, a plasmid encoding GFP and a plasmid encoding RFP. The evaluation of RNAi efficiency was performed in two kinds of chicken cell type: primary CEF cells and chicken DT-40 cells by lipofection. GFP- and RFP-expressing cells were observed under fluorescent microscopy, and their mRNAs content were analyzed by quantitative RT-PCR. The intensity of the green fluorescence generated by GFP was greatly suppressed by human H1 promoter transcribed GFP-shRNA. Quantitative RT-PCR analysis showed that normalized GFP mRNA expression was reduced to 37 and 32 in primary CEF and DT-40 cells, respectively. In contrast to GFP, the intensity of the red fluorescence generated by RFP protein and the RFP mRNA levels remained unchanged. Consequently, it was concluded that the RNAi induced by shRNA transcribed from mammalian Pol III promoter H1 is applicable to suppress the gene expression specifically and efficiently in chicken cells. Jing Yuan and Xiaobo Wang - These authors contributed equally to this work.     

Characterization of oligopeptide transporter (PepT1) in grass carp (Ctenopharyngodon idella)

The oligopeptide transporter (PepT1) is located on the brush-border membrane of the intestinal epithelium, and plays an important role in dipeptide and tripeptide absorptions from protein digestion. In this study, we cloned the PepT1 cDNA from grass carp and characterized its expression profile in response to dietary protein and feed additives (sodium butyrate) treatments. The PepT1 gene encodes a protein of 714 amino acids with high sequence similarity with other vertebrate homologues. Expression analysis revealed highest levels of PepT1 mRNA expression in the foregut of grass carp. In addition, PepT1 mRNA expression exhibited diurnal variation in all three bowel segments of intestine with lower levels of expression in daytime than nighttime. During embryonic development, PepT1 showed a dynamic pattern of expression reaching maximal levels of expression in the gastrula stage and minimal levels in the organ stage. The PepT1 expression showed constant levels from 14 to 34 day post-hatch. To determine whether fish diet of different protein contents may have any effect on PepT1 expression, we extended our research to dietary regulation of PepT1 expression. We found that dietary protein levels had a significant effect on PepT1 gene expression. In addition, PepT1 mRNA levels were higher after feeding with fish meal than with soybean meal. Moreover, in vitro and in vivo sodium butyrate treatments increased PepT1 expression in the intestine of grass carp. The results demonstrate for the first time that PepT1 mRNA expression is regulated in a temporal and spatial pattern during development, and dietary protein and feed additives had a significant effects on PepT1 gene expression in grass carp.     

鳜小肽转运载体PepT1基因分子特征及其表达研究

小肽转运载体（PepT1）是低亲和力、高容量的肽转运载体,在小肽的吸收过程中发挥着重要的作用。研究采用同源克隆和RACE技术克隆了鳜鱼（Siniperca chuatsi） PepT1基因全长cDNA序列,其cDNA序列全长为2480 bp,包含43 bp的5'UTR序列,232 bp的3'UTR序列,以及2205 bp开放阅读框,编码735个氨基酸。 氨基酸序列同源性分析结果显示,鳜鱼与石斑鱼（Epinephelus aeneus）、鲈鱼（Dicentrarchus labrax）PepT1间同源性均为89%,与其他非鱼类物种的同源性则在46%56%。经预测,鳜鱼PepT1编码蛋白的分子量为64.8 kD,等电点为8.97,该蛋白具有与哺乳动物同源蛋白相似的12 个螺旋跨膜结构,并且在跨膜区9和10之间有一个大的外环;跨膜区氨基酸高度保守,并存在有5个膜外N-糖基化位点和3个膜内含蛋白激酶C基序的相同区域。实时荧光定量表达分析表明,鳜鱼PepT1基因在前肠和中肠中表达量显著高于后肠（P0.05）,这说明前、中肠是鳜鱼肠道吸收小肽的主要部位;在胚后不同发育阶段鳜鱼前肠均能检测到PepT1基因的表达,并且在10 g个体中表达量最高,之后随着体重的增加其表达量维持在一个稳定水平。本研究结果首次报道了鳜鱼PepT1基因全序列及其分子表达特征,为鱼类营养及生理学的研究提供有价值的参考资料。       

表达人乳头瘤病毒58型L1、L2壳蛋白的非复制型重组痘苗病毒疫苗株的构建

采用PCR定点突变方法,对HPV581L1基因中痘苗病毒早期基因转录终止信号TTTTTNT结构进行修饰,并保留氨基酸不变.选用非复制型重组痘苗病毒为载体,将修饰的L1基因1.5kb和L2基因1.4kb分别插入痘苗病毒表达载体pJSD的7.5k和H6早期启动子之后,使之与非复制型重组痘苗病毒在TK区重组.经单斑筛选纯化,获得共表达HPV58L1、L2晚期蛋白的非复制型重组痘苗病毒疫苗实验株.该病毒在CEF细胞上连续传至第15代,经斑点杂交分析,重组痘苗病毒基因组中有L1和L2基因插入;经Western blot检测,重组病毒能稳定表达HPV581L1及L2蛋白.此结果为HPV58型非复制型重组痘苗病毒疫苗人用株的研究打下了基础.     

Distribution and abundance of nutrient transporter mRNA in the intestinal tract of the black bear, Ursus americanus

End products of digestion are absorbed by the body through the action of transporter proteins expressed on the apical membrane of intestinal epithelial cells. We investigated the mRNA abundance and distribution of a peptide transporter (PepT1), a glucose transporter (SGLT1), two amino acid transporters (NBAT and b(o,+)AT), and a digestive enzyme, aminopeptidase N (APN), in the intestinal tract of black bears (Ursus americanus). Intestinal total RNA was isolated from 10 bears and abundance of PepT1, SGLT1, NBAT, b(o,+)AT, and APN mRNA were determined by Northern blots. Abundance of PepT1 (P<0.05), APN (P<0.05), and SGLT1 (P<0.0001) changed quadratically from the proximal to distal intestine with abundance being greatest in the midregion. Abundance of b(o,+)AT mRNA increased linearly (P<0.05) from the proximal to distal intestine. The number of molecules of mRNA/ng of total RNA for each gene was determined using Real-Time PCR. PepT1 mRNA was present at 10-fold or greater levels than amino acid transporter mRNA in all segments of the intestine, suggesting that di- and tripeptides constitute a major form in which amino acids are absorbed in the black bear. The abundance of NBAT and b(o,+)AT mRNA was greater towards the distal intestine, suggesting a role in salvaging unabsorbed amino acids.     

Molecular cloning, sequencing, and expression of functional bovine herpesvirus 1 glycoprotein gIV in transfected bovine cells.

The gene encoding bovine herpesvirus 1 (BHV-1) glycoprotein gIV was mapped, cloned, and sequenced. The gene is situated between map units 0.892 and 0.902 and encodes a predicted protein of 417 amino acids with a signal sequence cleavage site between amino acids 18 and 19. Comparison of the BHV-1 amino acid sequence with the homologous glycoproteins of other alphaherpesviruses, including herpes simplex virus type 1 glycoprotein gD, revealed significant homology in the amino-terminal half of the molecules, including six invariant cysteine residues. The identity of the open reading frame was verified by expression of the authentic recombinant BHV-1 gIV in bovine cells by using eucaryotic expression vectors pRSDneo (strong, constitutive promoter) and pMSG (weak, dexamethasone-inducible promoter). Constitutive expression of gIV proved toxic to cells, since stable cell lines could only be established when the gIV gene was placed under the control of an inducible promoter. Expression of gIV was cell associated and localized predominantly in the perinuclear region, although nuclear and plasma membrane staining was also observed. Radioimmunoprecipitation revealed that the recombinant glycoprotein was efficiently processed and had a molecular weight similar to that of the native form of gIV expressed in BHV-1-infected bovine cells. Recombinant gIV produced in the transfected bovine cells induced cell fusion, polykaryon formation, and nuclear fusion. In addition, expression of gIV interfered with BHV-1 replication in the transfected bovine cells.     

MicroRNA-193a-3p Reduces Intestinal Inflammation in Response to Microbiota via Down-regulation of Colonic PepT1

Intestinal inflammation is characterized by epithelial disruption, leading to the loss of barrier function, recruitment of immune cells, and host immune responses to gut microbiota. PepT1, a di/tripeptide transporter that uptakes bacterial products, is up-regulated in inflamed colon tissue, which implies its role in bacterium-associated intestinal inflammation. Although microRNA (miRNA)-mediated gene regulation has been found to be involved in various processes of inflammatory bowel disease (IBD), the biological function of miRNAs in the pathogenesis of IBD remains to be explored. In this study we detected miRNA expression patterns in colon tissues during colitis and investigated the mechanism underlying the regulation of colonic PepT1 by miRNAs. We observed an inverse correlation between PepT1 and miR-193a-3p in inflamed colon tissues with active ulcerative colitis, and we further demonstrated that miR-193a-3p reduced PepT1 expression and activity as a target gene and subsequently suppressed the NF-κB pathway. Intracolonic delivery of miR-193a-3p significantly ameliorated dextran sodium sulfate-induced colitis, whereas the overexpression of colonic PepT1 via PepT1 3′-untranslated region mutant lentivirus vector abolished the anti-inflammatory effect of miR-193a-3p. Furthermore, antibiotic treatment eliminated the difference in the dextran sodium sulfate-induced inflammation between the presence and absence of miR-193a-3p. These findings suggest that miR-193a-3p regulation of PepT1 mediates the uptake of bacterial products and is a potent mechanism during the colonic inflammation process. Overall, we believe miR-193a-3p may be a potent regulator of colonic PepT1 for maintaining intestinal homeostasis.     

表达绿色荧光蛋白的重组CVI988病毒的构建及特性

提取马立克氏病毒Ⅰ型疫苗毒株CVI988的总DNA为模板,利用PCR技术扩增出病毒生长非必需的US2基因并克隆入T—easy载体。将CMV启动子和增强子控制的含GFP基因表达盒克隆入US2基因中,成功构建了含GFP基因的转移质粒载体pGUS2GFP。用脂质体将其与CVI988株共转染CEF细胞,用96孔板稀释法得到纯化的表达绿色荧光蛋白的重组CVI988病毒株rCVIGFP,并分别测定其在体内和体外的生长情况。表达EGFP基因的重组病毒在细胞上生长曲线与亲本毒CVI988类似,体外实验表明,1日龄腹腔接种该重组毒后,可以从鸡体内分离到表达绿色荧光的病毒。     

Modified amino acids and peptides as substrates for the intestinal peptide transporter PepT1.

The binding affinities of a number of amino-acid and peptide derivatives by the mammalian intestinal peptide transporter PepT1 were investigated, using the Xenopus laevis expression system. A series of blocked amino acids, namely N-acetyl-Phe (Ac-Phe), phe-amide (Phe-NH2), N-acetyl-Phe-amide (Ac-Phe-NH2) and the parent compound Phe, was compared for efficacy in inhibiting the uptake of the peptide [3H]-D-Phe-L-Gln. In an equivalent set of experiments, the blocked peptides Ac-Phe-Tyr, Phe-Tyr-NH2 and Ac-Phe-Tyr-NH2 were compared with the parent compound Phe-Tyr. Comparing amino acids and derivatives, only Ac-Phe was an effective inhibitor of peptide uptake (Ki = 1.81+/- 0.37 mM). Ac-Phe-NH2 had a very weak interaction with PepT1 (Ki = 16.8+/-5.64 mM); neither Phe nor Phe-NH2 interacted with PepT1 with measurable affinity. With the dipeptide and derivatives, unsurprisingly the highest affinity interaction was with Phe-Tyr (Ki = 0.10+/-0.04 mM). The blocked C-terminal peptide Phe-Tyr-NH2 also interacted with PepT1 with a relatively high affinity (Ki = 0.94+/-0.38 mM). Both Ac-Phe-Tyr and Ac-Phe-Tyr-NH2 interacted weakly with PepT1 (Ki = 8.41+/-0.11 and 9.97+/-4.01 mM, respectively). The results suggest that the N-terminus is the primary binding site for both dipeptides and tripeptides. Additional experiments with four stereoisomers of Ala-Ala-Ala support this conclusion, and lead us to propose that a histidine residue is involved in binding the C-terminus of dipeptides. In addition, a substrate binding model for PepT1 is proposed.     

DNA methylation down-regulates CDX1 gene expression in colorectal cancer cell lines

CDX1 is a homeobox protein that inhibits proliferation of intestinal epithelial cells and regulates intestine-specific genes involved in differentiation. CDX1 expression is developmentally and spatially regulated, and its expression is aberrantly down-regulated in colorectal cancers and colon cancer-derived cell lines. However, very little is known about the molecular mechanism underlying the regulation of CDX1 gene expression. In this study, we characterized the CDX1 gene structure and identified that its gene promoter contained a typical CpG island with a CpG observed/expected ratio of 0.80, suggesting that the CDX1 gene is a target of aberrant methylation. Alterations of DNA methylation in the CDX1 gene promoter were investigated in a series of colorectal cancer cell lines. Combined Bisulfite Restriction Analysis (COBRA) and bisulfite sequencing analysis revealed that the CDX1 promoter is methylated in CDX1 non-expressing colorectal cancer cell lines but not in human normal colon tissue and T84 cells, which express CDX1. Treatment with 5'-aza-2'-deoxycytidine (5-azaC), a DNA methyltransferase inhibitor, induced CDX1 expression in the colorectal cancer cell lines. Furthermore, de novo methylation was determined by establishing stably transfected clones of the CDX1 promoter in SW480 cells and demethylation by 5-azaC-activated reporter gene expression. These results indicate that aberrant methylation of the CpG island in the CDX1 promoter is one of the mechanisms that mediate CDX1 down-regulation in colorectal cancer cell lines.