Scientia Agricultura Sinica ›› 2016, Vol. 49 ›› Issue (10): 1990-1997.doi: 10.3864/j.issn.0578-1752.2016.10.014

• ANIMAL SCIENCE·VETERINARY SCIENCERE·SOURCE INSECT • Previous Articles     Next Articles

Transcriptional Activity of Goat PRNP Gene Promoter

ZHOU Rong-yan, WEI Yan-hui, XI Jian-zhong, LI Lan-hui, CHEN Hui, GAO Li-jie, ZHANG Zhen-hong   

  1. College of Animal Science and Technology, Agricultural University of Hebei, Baoding 071001, Heibei
  • Received:2015-08-27 Online:2016-05-16 Published:2016-05-16

RichHTML

1

PDF

477

Abstract: 【Objective】In order to screen the critical region or transcription factors regulating the expression level of prion in goat, the active region in the promoter of PRNP gene was analyzed. These results will provide a theoretical reference for elucidating the regulation of expression and thought for reducing the infectivity of prion disease with genetic strategy.【Method】The specific primer was designed based on the reference genomic sequence (GenBank Accession: EU870890). The fragment in a 5′ flanking region was amplified and cloned into the vector pEASY-T3. The positive colonies were identified and sequenced. The putative promoter and transcription factor binding sites were predicted with bioinformatic methods and online program. Eleven fragments with different lengths of promoter regions were amplified and cloned into the vector pEASY-T3. The positive colonies and vector pGL3-Basic were digested with two restriction enzymes Mlu I and Bgl II. The digested mixture were purified and ligated with T4 ligase to get the recombinant containing the luciferase reporter gene. The endo-free plamids were isolated after the positive colonies were obtained and sequenced. The transfection to SH-SY5Y was done with a Liposome reagent. The luciferase activity was measured with the dual-luciferase detection kit after 48 hours transfection.【Result】The length of the fragment in 5′ flanking region of PRNP gene in goat was 2 332bp. The predicted active region in the promoter, conserved motifs and multiple transcription factor binding sites were involved in the cloned fragment in the 5′ flanking region. Eleven different lengths of fragments were obtained and ligated with luciferase reported vector. The ratio of transfection reagent and DNA and Firefly luciferase vector and Renilla luciferase were 1﹕0.5 and 50:1 respectively. The core promoter was involved in 5′ flanking region of PRNP gene in goat and this region was from -519bp to +82bp. There were some positive regulatory elements in the region from -220 to +59. The exon 1 played a critical role in regulating the activity of the promoter. The positive regulating elements binding sites were predicted for four conserved motifs. There were many transcription factors, such as Sp1, AP-2 alpha and AP-1, binding sites in the strong active promoter. The transcription factors Foxp3 and COE1 binding sites were also predicted for motif 3 and 4 respectively. 【Conclusion】The core promoter region from -519bp to +82bp was identified in goat PRNP gene. The function of exon 1 in regulating promoter activity was critical.

Key words: goat, PRNP gene, promoter, transcriptional regulation

[1]    AGRIMI U, CONTE M, MORELLI L, DI BARI M A, DI GUARDO G, LIGIOS C, ANTONUCCI G, AUFIERO G M, POZZATO N, MUTINELLI F, NONNO R, VACCARI G. Animal transmissible spongiform encephalopathies and genetics. Veterinary Research Communications,2003, 27(Suppl. 1): 31-38.
[2]    TRANULIS M A, BENESTAD S L, BARON T, KRETZSCHMAR H. Atypical prion diseases in humans and animals. Topics in Current Chemistry,2011, 305:23-50.
[3]    AGUZZI A. Prion diseases of humans and farm animals: epidemiology, genetics, and pathogenesis. Journal of Neurochemistry,2006, 97(6): 1726-1739.
[4]    BUELER H, AGUZZI A, SAILER A, GREINER R A, AUTENRIED P, AGUET M, WEISSMANN C. Mice devoid of PrP are resistant to scrapie. Cell,1993, 73(7):1339-1347.
[5]    王洪梅, 张利博, 侯明海, 王长法, 王玲玲, 涛, 何洪彬, 仲跻峰. 牛 Nramp1 基因启动子的克隆及其活性分析. 中国农业科学, 2011, 44(5): 1022-1028.
WANG H M,ZHANG L B, HOU M H, WANG C F, WANG L L, SUN T, HE H B, ZHONG J F. Cloning and activity analysis of bovine natural resistance associated macrophage protein 1 (Nramp1) gene promoter. Scientia Agricultura Sinica,2011, 44(5):1022-1028. (in Chinese)
[6]    TRANULIS M A. Influence of the prion protein gene, Prnp, on scrapie susceptibility in sheep. Acta Pathologica,Microbiologica, et Immunologica Scandinavica,2002, 110(1):33-43.
[7]    ACUTIS PL, BOSSERS A, PRIEM J, RIINA MV, PELETTO S, MAZZA M, CASALONE C, FORLONI G, RU G, CARAMELLI M. Identification of prion protein gene polymorphisms in goats from Italian scrapie outbreaks. Journal of General Virology,2006, 87( 4): 1029-1033.
[8]    VACCARI G, DI BARI M A, MORELLI L, NONNO R, CHIAPPINI B, ANTONUCCI G, MARCON S, ESPOSITO E, FAZZI P, PALAZZINI N, TROIANO P, PETRELLA A, DI GUARDO G, AGRIMI U. Identification of an allelic variant of the goat PrP gene associated with resistance to scrapie. Journal of General Virology,2006, 87(5):1395-1402.
[9]    LACROUX C, PERRIN-CHAUVINEAU C, CORBIERE F, ARON N, AGUILAR-CALVO P, TORRES J M, COSTES P, BREMAUD I, LUGAN S, SCHELCHER F, BARILLET F, ANDREOLETTI O. Genetic resistance to scrapie infection in experimentally challenged goats. Journal of Virology,2014, 88(5):2406-2413.
[10]   COLUSSI S, VACCARI G, MAURELLA C, BONA C, LORENZETTI R, TROIANO P, CASALINUOVO F, DI SARNO A, MANIACI M G, ZUCCON F, NONNO R, CASALONE C, MAZZA M, RU G, CARAMELLI M, AGRIMI U, ACUTIS P L. Histidine at codon 154 of the prion protein gene is a risk factor for Nor98 scrapie in goats. Journal of General Virology,2008, 89(12):3173-3176.
[11]   PAPASAVVA-STYLIANOU P, KLEANTHOUS M, TOUMAZOS P, MAVRIKIOU P, LOUCAIDES P. Novel polymorphisms at codons 146 and 151 in the prion protein gene of Cyprus goats, and their association with natural scrapie. The Veterinary Journal,2007, 173(2):459-462.
[12]   FRAGKIADAKI E G, VACCARI G, EKATERINIADOU L V, AGRIMI U, GIADINIS N D, CHIAPPINI B, ESPOSITO E, CONTE M, NONNO R. PRNP genetic variability and molecular typing of natural goat scrapie isolates in a high number of infected flocks. Veterinary Research,2011, 42(1):104.
[13]   CORBIERE F, PERRIN-CHAUVINEAU C, LACROUX C, COSTES P, THOMAS M, BREMAUD I, MARTIN S, LUGAN S, CHARTIER C, SCHELCHER F, BARILLET F, ANDREOLETTI O. PrP- associated resistance to scrapie in five highly infected goat herds. Journal of General Virology,2013, 94(Pt 1):241-245.
[14]   AGUILAR-CALVO P, ESPINOSA JC, PINTADO B, GUTIERREZ- ADAN A, ALAMILLO E, MIRANDA A, PRIETO I, BOSSERS A, ANDREOLETTI O, TORRES J M. Role of the goat K222-PrPC polymorphic variant in prion infection resistance. Journal of General Virology,2013.
[15]   DASSANAYAKE R P, WHITE S N, MADSEN-BOUTERSE S A, SCHNEIDER D A, O'ROURKE K I. Role of the PRNP S127 allele in experimental infection of goats with classical caprine scrapie. Animal Genetics,2015, 46(3):341.
[16]   AGUILAR-CALVO P, FAST C, TAUSCHER K, ESPINOSA J C, GROSCHUP M H, NADEEM M, GOLDMANN W, LANGEVELD J, BOSSERS A, ANDREOLETTI O, TORRES J M. Effect of Q211 and K222 PRNP polymorphic variants in the susceptibility of goats to oral infection with goat bovine spongiform encephalopathy. The Journal of Infectious Diseases,2015, 212(4):664-672.
[17]   ORTIZ-PELAEZ A, GEORGIADOU S, SIMMONS M M, WINDL O, DAWSON M, ARNOLD M E, NEOCLEOUS P, PAPASAVVA- STYLIANOU P. Allelic variants at codon 146 in the PRNP gene show significant differences in the risk for natural scrapie in Cypriot goats. Epidemiology and Infection,2015, 143(6):1304-1310.
[18]   BUSCHMANN A, LUHKEN G, SCHULTZ J, ERHARDT G, GROSCHUP M H. Neuronal accumulation of abnormal prion protein in sheep carrying a scrapie-resistant genotype (Prp(ARR/ARR)). Journal of General Virology,2004, 85:2727-2733.
[19]   BRATOSIEWICZ-WASIK J, LIBERSKI P P, GOLANSKA E, JANSEN G H, WASIK T J. Regulatory sequences of the PRNP gene influence susceptibility to sporadic Creutzfeldt-Jakob disease. Neuroscience Letters,2007, 411(3):163-167.
[20]   SAUNDERS G C, CAWTHRAW S, MOUNTJOY S J, TOUT A C, SAYERS A R, HOPE J, WINDL O. Ovine PRNP untranslated region and promoter haplotype diversity. Journal of General Virology,2009, 90(5):1289-1293.
[21]   WRIGHT J A, MCHUGH P C, STOCKBRIDGE M, LANE S, KRALOVICOVA S, BROWN D R. Activation and repression of prion protein expression by key regions of intron 1. Cellular and Molecular Life Sciences,2009, 66(23):3809-3820.
[22]   ELMONIR W, INOSHIMA Y, ELBASSIOUNY A, ISHIGURO N. Intron 1 mediated regulation of bovine prion protein gene expression: Role of donor splicing sites, sequences with potential enhancer and suppressor activities. Biochemical and Biophysical Research Communications,2010, 397(4):706-710.
[23]   HAIGH C L, WRIGHT J A, BROWN D R. Regulation of prion protein expression by noncoding regions of the Prnp gene. Journal of Molecular Biology,2007, 368(4):915-927.
[24]   INOUE S, TANAKA M, HORIUCHI M, ISHIGURO N, SHINAGAWA M. Characterization of the bovine prion protein gene: the expression requires interaction between the promoter and intron. The Journal of Veterinary Medical Science,1997, 59(3):175-183.
[25]   PREMZL M, DELBRIDGE M, GREADY J E, WILSON P, JOHNSON M, DAVIS J, KUCZEK E, MARSHALL GRAVES J A. The prion protein gene: identifying regulatory signals using marsupial sequence. Gene,2005, 349:121-134.
[26]   O'NEILL G. T, DONNELLY K, MARSHALL E, CAIRNS D, GOLDMANN W, HUNTER N. Characterization of ovine PrP gene promoter activity in N2a. Journal of Animal Breeding and Genetics,2003, 120:114-123.
[27]   BELLINGHAM S A, COLEMAN L A, MASTERS C L, CAMAKARIS J, HILL A F. Regulation of prion gene expression by transcription factors SP1 and metal transcription factor-1. The Journal of Biological Chemistry,2009, 284(2):1291-1301.
[28]   SEABURY C M, GILL C A, TEMPLETON J W, DYAR J B, DERR J N, ADELSON D L, OWENS E, DAVIS D S, KRAEMER D C, WOMACK J E. Molecular characterization of the Rocky Mountain elk (Cervus elaphus nelsoni) PRNP putative promoter. Journal of Heredity,2007, 98(7):678-686.
[29]   BURGESS S T, SHEN C, FERGUSON L A, O'NEILL G T, DOCHERTY K, HUNTER N, GOLDMANN W. Identification of adjacent binding sites for the YY1 and E4BP4 transcription factors in the ovine PrP (Prion) gene promoter. The Journal of Biological Chemistry,2009, 284(11):6716-6724.
[1] LI XuFei,YANG ShengDi,LI SongQi,LIU HaiNan,PEI MaoSong,WEI TongLu,GUO DaLong,YU YiHe. Analysis of VlCKX4 Expression Characteristics and Prediction of Transcriptional Regulation in Grape [J]. Scientia Agricultura Sinica, 2023, 56(1): 144-155.
[2] ZHANG Jie,JIANG ChangYue,WANG YueJin. Functional Analysis of the Interaction Between Transcription Factors VqWRKY6 and VqbZIP1 in Regulating the Resistance to Powdery Mildew in Chinese Wild Vitis quinquangularis [J]. Scientia Agricultura Sinica, 2022, 55(23): 4626-4639.
[3] LI Heng,ZI XiangDong,WANG Hui,XIONG Yan,LÜ MingJie,LIU Yu,JIANG XuDong. Screening of Key Regulatory Genes for Litter Size Trait Based on Whole Genome Re-Sequencing in Goats (Capra hircus) [J]. Scientia Agricultura Sinica, 2022, 55(23): 4753-4768.
[4] YAN Qiang,XUE Dong,HU YaQun,ZHOU YanYan,WEI YaWen,YUAN XingXing,CHEN Xin. Identification of the Root-Specific Soybean GmPR1-9 Promoter and Application in Phytophthora Root-Rot Resistance [J]. Scientia Agricultura Sinica, 2022, 55(20): 3885-3896.
[5] XU XianBin,GENG XiaoYue,LI Hui,SUN LiJuan,ZHENG Huan,TAO JianMin. Transcriptome Analysis of Genes Involved in ABA-Induced Anthocyanin Accumulation in Grape [J]. Scientia Agricultura Sinica, 2022, 55(1): 134-151.
[6] DU Yu,WANG Yong,MENG QingYong,ZHU JiangJiang,LIN YaQiu. Knockdown Goat KLF12 to Promote Subcutaneous Adipocytes Differentiation [J]. Scientia Agricultura Sinica, 2022, 55(1): 184-196.
[7] ZHAO Le,YANG HaiLi,LI JiaLu,YANG YongHeng,ZHANG Rong,CHENG WenQiang,CHENG Lei,ZHAO YongJu. Expression Patterns of TETs and Programmed Cell Death Related Genes in Oviduct and Uterus of Early Pregnancy Goats [J]. Scientia Agricultura Sinica, 2021, 54(4): 845-854.
[8] FENG YunKui,WANG Jian,MA JinLiang,ZHANG LiuMing,LI YongJun. Effects of miR-31-5p on the Proliferation and Apoptosis of Hair Follicle Stem Cells in Goat [J]. Scientia Agricultura Sinica, 2021, 54(23): 5132-5143.
[9] LÜ ShiKai, MA XiaoLong, ZHANG Min, DENG PingChuan, CHEN ChunHuan, ZHANG Hong, LIU XinLun, JI WanQuan. Post-transcriptional Regulation of TaNAC Genes by Alternative Splicing and MicroRNA in Common Wheat (Triticum aestivum L.) [J]. Scientia Agricultura Sinica, 2021, 54(22): 4709-4727.
[10] CHEN Yuan,CAI He,LI Li,WANG LinJie,ZHONG Tao,ZHANG HongPing. Alternative Splicing of TNNT3 and Its Effect on the Differentiation of MuSCs in Goat [J]. Scientia Agricultura Sinica, 2021, 54(20): 4466-4477.
[11] MENG XiangKun,WU ZhaoLu,YANG XueMei,GUAN DaoJie,WANG JianJun. Cloning and Analysis of P-glycoprotein Gene and Its Transcriptional Response to Insecticide in Chilo suppressalis [J]. Scientia Agricultura Sinica, 2021, 54(19): 4121-4131.
[12] DU Xing,ZENG Qiang,LIU Lu,LI QiQi,YANG Liu,PAN ZengXiang,LI QiFa. Identification of the Core Promoter of Linc-NORFA and Its Transcriptional Regulation in Erhualian Pig [J]. Scientia Agricultura Sinica, 2021, 54(15): 3331-3342.
[13] GU MingHui,LIU YongFeng,SHEN Qian,QIAO ChunYan. Improving Quality and Delaying Oxidation in Goat Meat Refrigeration by Polyphenols from Thinned Young Kiwifruit [J]. Scientia Agricultura Sinica, 2020, 53(8): 1643-1654.
[14] CHEN Liu,NI Zheng,YU Bin,HUA JiongGang,YE WeiCheng,YUN Tao,LIU KeShu,ZHU YinChu,ZHANG Cun. Optimized Promoter Regulating of Duck Tembusu Virus E Protein Expression Delivered by a Vectored Duck Enteritis Virus in vitro [J]. Scientia Agricultura Sinica, 2020, 53(24): 5125-5134.
[15] WANG Feng,WANG XiuJie,ZHAO ShengNan,YAN JiaRong,BU Xin,ZHANG Ying,LIU YuFeng,XU Tao,QI MingFang,QI HongYan,LI TianLai. Light Regulation of Anthocyanin Biosynthesis in Horticultural Crops [J]. Scientia Agricultura Sinica, 2020, 53(23): 4904-4917.
Viewed
Full text


Abstract

Cited
  Shared   
  Discussed   
No Suggested Reading articles found!
京ICP备09089781号-30
Copyright 2018 © Editorial office of Scientia Agricultura Sinica
Tel: 86-010-82106279    E-mail: zgnykx@mail.caas.net.cn
Supported by Beijing Magtech Co.Ltd