[1] ELWELL C,MIRRASHIDI K,ENGEL J.Chlamydia cell biology and pathogenesis[J].Nature Reviews,Microbiology,2016,14(6):385-400. [2] BACHMANN N L,POLKINGHORNE A,TIMMS P. Chlamydia genomics:Providing novel insights into chlamydial biology[J].Trends in Microbiology,2014,22(8):464-472. [3] 王文勇,刘宝汉,马元莲,等.羊流产衣原体灭活疫苗对绵羊流产的治疗效果观察[J].中国兽医杂志,2018,54(11):94-96. WANG W Y,LIU B H,MA Y L,et al.The study on therapeutic effect of inactivated vaccine of Chlamydia abortus to infected sheep[J].Chinese Journal of Veterinary Medicine,2018,54(11):94-96.(in Chinese) [4] 帅永玉,黄美群,葛文楠,等.羊衣原体性流产的研究——病原分离鉴定[J].兽医科技杂志,1981,11(8):3-7. SHUAI Y Y,HUANG M Q,GE W N,et al.Research on Chlamydia abortion in sheep:Pathogen isolation and identification[J].Chinese Veterinary Science,1981,11(8):3-7.(in Chinese) [5] 谭启东,李知新,王晓亮,等.甘肃、宁夏地区奶牛衣原体血清流行病学调查及风险因素分析[J].中国畜牧兽医,2015,42(5):1283-1287. TAN Q D,LI Z X,WANG X L,et al.Seroprevalence investigation and risk factors analysis of Chlamydia infection in dairy cattle in Gansu and Ningxia areas[J].China Animal Husbandry & Veterinary Medicine,2015,42(5):1283-1287.(in Chinese) [6] 杨峰,李敏,李静,等.浙江省猪衣原体的高度流行性和遗传多样性[J].畜牧与兽医,2018,50(9):51-55. YANG F,LI M,LI J,et al.High prevalence and genetic diversity of Chlamydia suis in Zhejiang province[J].Animal Husbandry & Veterinary Medicine,2018,50(9):51-55.(in Chinese) [7] 朱雅宁.禽衣原体病流行病学调查和防控技术[D].长春:吉林大学,2016. ZHU Y N.Epidemiological investigation and prevention and control technology of avian chlamydiosis[D].Changchun:Jilin University,2016.(in Chinese) [8] 赵荣.羊流产衣原体细胞灭活疫苗的研究[D].北京:中国农业科学院,2016. ZHAO R.Development on inactivated cell vaccine of ovine Chlamydia abortus[D].Beijing:Chinese Academy of Agricultural Sciences,2016.(in Chinese) [9] 蒙丽君,胡丹,彭杰,等.衣原体疫苗研究进展[J].实用预防医学,2019,26(12):1538-1542. MENG L J,HU D,PENG J,et al.Progress of development of Chlamydial vaccine[J].Practical Preventive Medicine,2019,26(12):1538-1542.(in Chinese) [10] STEVEN L,DAVID B,CHARU K,et al.Considerations for the rational design of a Chlamydia vaccine[J].Human Vaccines & Immunotherapeutics,2017,13(4):831-835. [11] 邱昌庆,周继章,程淑敏,等.乳牛衣原体病灭活疫苗的研制[J].中国兽医科学,2006,36(5):343-347. QIU C Q,ZHOU J Z,CHENG S M,et al.Development of inactivated vaccine against chlamydiosis in dairy cattle[J].Chinese Veterinary Science,2006,36(5):343-347.(in Chinese) [12] RODOLAKIS A,SOURIAU A.Response of ewes to temperature-sensitive mutants of Chlamydia psittaci (var ovis) obtained by NTG mutagenesis[J].Annals of Veterinary Research,1983,14(2):155-161. [13] RODOLAKIS A,SOURIAU A.Response of goats to vaccination with temperature-sensitive mutants of Chlamydia psittaci obtained by nitrosoguanidine mutagenesis[J].American Journal of Veterinary Research,1986,47(12):2627-2631. [14] LAROUCAU K,AAZIZ R,VORIMORE F,et al.Abortion storm induced by the live C.abortus vaccine 1B strain in a vaccinated sheep flock,mimicking a natural wild-type infection[J].Veterinary Microbiology,2018,225:31-33. [15] LONGBOTTOM D,SAIT M,LIVINGSTONE M,et al.Genomic evidence that the live Chlamydia abortus vaccine strain 1B is not attenuated and has the potential to cause disease[J].Vaccine,2018,36(25):3593-3598. [16] OU C,TIAN D,LING Y,et al.Evaluation of an OmpA-based phage-mediated DNA vaccine against Chlamydia abortus in piglets[J].International Immunopharmacology,2013,16(4):505-510. [17] 龙冲冲,邓位喜,毛以智,等.山羊流产嗜衣原体OmpA基因重组质粒构建及对小鼠免疫效果研究[J].中国畜牧兽医,2016,43(11),2886-2891. LONG C C,DENG W X,MAO Y Z,et al.Construction of recombined plasmid with OmpA gene of goat Chlamydophila abortus[J].China Animal Husbandry & Veterinary Medicine,2016,43(11):2886-2891.(in Chinese) [18] WANG L,CAI Y,XIONG Y,et al.DNA plasmid vaccine carrying Chlamydia trachomatis (Ct) major outer membrane and human papillomavirus 16L2 proteins for anti-Ct infection[J].Oncotarget,2017,8(20):33241-33251. [19] 李岩伟,杨凤宝,宋立华,等.鹦鹉热衣原体基因工程亚单位疫苗免疫羊抗体产生动力曲线[J].中国人兽共患病学报,2010,26(9):835-836. LI Y W,YANG F B,SONG L H,et al.Kinetics curve of antibody responses in ewes immunized with subunit vaccine of genetically engineered Chlamydia psittaci[J].Chinese Journal of Zoonoses,2010,26(9):835-836.(in Chinese) [20] PAN Q,PAIS R,OHANDJO A,et al.Comparative evaluation of the protective efficacy of two formulations of a recombinant Chlamydia abortus subunit candidate vaccine in a mouse model[J].Vaccine,2015,33(15):2849. [21] PAN Q,ZHANG Q,CHU J,et al.Chlamydia abortus Pmp18.1 induces IL-1β secretion by TLR4 activation through the MyD88,NF-κB,and Caspase-1 signaling pathways[J].Frontiers in Cellular and Infection Microbiology,2017,7:514. [22] 潘青.猪流产衣原体Pmp18N-rVCG疫苗的构建、小鼠免疫评价和机制研究[D].北京:中国农业大学,2015. PAN Q.Construction and comparative evaluation of Chlamydia abortus subunit candidate vaccine Pmp18N-rVCG in a mouse model and immune mechanism of DC pulsed with Pmp18N[D].Beijing:China Agricultural University,2015.(in Chinese) [23] 谈园.鹦鹉热衣原体质粒蛋白CPSIT_p7的抗感染免疫保护作用研究[D].衡阳:南华大学,2017. TAN Y.Chlamydia psittaci plasmid-encoded protein CPSIT_p7 induced the protective immunity[D].Hengyang:University of South China,2017.(in Chinese) [24] 周鹏.鹦鹉热衣原体MOMP、MIP重组核酸菌影疫苗的免疫保护作用[D].衡阳:南华大学,2018. ZHOU P.Immunoprotective effects of recombinant E.coli ghosts expressing Chlamydia psittaci MOMP and MIP[D].Hengyang:University of South China,2017.(in Chinese) [25] 刘杉杉.鹦鹉热衣原体pmpD-N基因重组HVT的构建及其免疫效果评价[D].北京:中国农业大学,2016. LIU S S.Construction and efficacy test of the recombinant herpesvirus of turkeys expressing pmpD-N against Chlamydia psittaci and Marek's disease virus[D].Beijing:China Agricultural University,2016.(in Chinese) [26] BOMMANA S,POLKINGHORNE A.Mini review:Antimicrobial control of Chlamydial infections in animals:Current practices and issues[J].Frontiers in Microbiology,2019,10(10):113. [27] RADOMSKI N,EINENKEL R,KNITTLER M R,et al.Chlamydia-host cell interaction not only from a bird's eye view:Some lessons from Chlamydia psittaci[J].FEBS Letters,2016,590(21):3920-3940. [28] HOFFMANN K,SCHOTT F,DONATI M,et al.Prevalence of Chlamydial infections in fattening pigs and their influencing factors[J].PLoS One,2015,10(11):e0143576. [29] BLACK L A,HIGGINS D P,GOVENDIR M.In vitro activity of chloramphenicol,florfenicol and enrofloxacin against Chlamydia pecorum isolated from koalas (Phascolarctos cinereus)[J].Australian Veterinary Journal,2015,93(11):420-423. [30] WALKER E,MOORE C,SHEARER P,et al.Clinical,diagnostic and pathologic features of presumptive cases of Chlamydia pecorum-associated arthritis in Australian sheep flocks[J].BMC Veterinary Research,2016,12(1):193. [31] 吴辉,刘煜德,吴伟,等.清热解毒法对肺炎衣原体感染致兔动脉粥样硬化的干预作用[J].广州中医药大学学报,2006,2:151-155. WU H,LIU Y D,WU W,et al.Effect of antipyretic and detoxification on rabbit atherosclerosis caused by Chlamydia pneumoniae infection[J].Journal of Guangzhou University of Traditional Chinese Medicine,2006,2:151-155.(in Chinese) [32] 王金福,张永霞,顾剑新,等.复方中药体外抗猪衣原体活性研究[J].家畜生态学报,2014,35(8):70-71. WANG J F,ZHANG Y X,GU J X,et al.Study on Anti-swine Chlamydia activity of compound traditional Chinese medicine in vitro[J].Journal of Domestic Animal Ecology,2014,35(8):70-71.(in Chinese) [33] 黄敏,郑和平,段行武,等.八正散单味中药及7味清热利湿药体外抗沙眼衣原体活性研究[J].中国麻风皮肤病杂志,2015,31(1):15-17. HUANG M,ZHENG H P,DUAN X W,et al.Impacts of Bazhengsan and seven kinds of Qingrelishi traditional medicine on the Chlamydia trachomatis in vitro[J].China Journal of Leprosy and Skin Diseases,2015,31(1):15-17.(in Chinese) [34] 李建红,黄敏,薛耀华,等.大黄及黄柏提取物体外抗沙眼衣原体活性研究[J].中华中医药杂志,2015,30(8):2935-2938. LI J H,HUANG M,XUE Y H,et al.Research on monomers activities of against Chlamydia trachomatis in vitro extracted from rhubarb root and rhizome and amur cork-tree[J].China Journal of Traditional Chinese Medicine and Pharmacy,2015,30(8):2935-2938.(in Chinese) [35] 邝枣园.肺炎衣原体对血管内皮细胞的损伤及黄芩苷的保护作用[D].广州:广州中医药大学,2005. KUANG Z Y.Injuries of human vascular endothelial cells induced by Chlamydia pneumonia and the protection of Baucalin[D].Guangzhou:Guangzhou University of Traditional Chinese Medicine,2005.(in Chinese) [36] 黄浩,付雷,易艳东.黄芩苷下调沙眼衣原体感染小鼠TLR2和TLR4基因表达的研究[J].中国临床药理学与治疗学,2011,16(6):606-610. HUANG H,FU L,YI Y D.Baicalin downregulates expression of TLR2 and TLR4 gene in Chlamydia trachomatis infected mice[J].Chinese Journal of Clinical Pharmacology and Therapeutics,2011,16(6):606-610.(in Chinese) [37] 田黎黎.黄芩苷对沙眼衣原体CPAF的作用及影响[D].武汉:湖北中医药大学,2014. TIAN L L.The role and effects of Baicalin on Chlamydia trachomatis CPAF[D].Wuhan:Hubei University of Traditional Chinese Medicine,2014.(in Chinese) [38] 费霖莉,宁玉梅.黄芪多糖对小鼠生殖道沙眼衣原体感染免疫保护作用的研究[J].浙江中医药大学学报,2013,37(9):1103-1107. FEI W L,NING Y M.The immune protective effect of Astragalus polysaccharide on mice genital tract infected with Chlamydia trachomatis[J].Journal of Zhejiang Chinese Medical University,2013,37(9):1103-1107.(in Chinese) [39] 张燕,鲜雨琦,高磊琼,等.四种中药单体成分体外抑制沙眼衣原体作用的筛查[J].第三军医大学学报,2018,40(14):1271-1278. ZHANG Y,XIAN Y Q,GAO L Q,et al.Comparison of inhibitory effects of 4 effective components of traditional Chinese drugs on Chlamydia trachomatis in vitro[J].Journal of Third Military Medical University,2018,40(14):1271-1278.(in Chinese) [40] PAPA V,GINOCCHIETTI L,BUDRIESI R,et al. In vitro activity of a partially purified and characterized bark extract of Castanea sativa Mill.(ENC) against Chlamydia spp[J].Ultrastructural Pathology,2017,41(2):147-153. [41] 罗梅,魏绍斌,黄利.中医药防治生殖道沙眼衣原体感染性疾病研究现状与思考[J].中国抗生素杂志,2019,44(5):535-540. LUO M,WEI S B,HUANG L.Current status of research on prevention and treatment of Chlamydia trachomatis infectious diseases with traditional Chinese medicine[J].Chinese Journal of Antibiotics,2019,44(5):535-540.(in Chinese) [42] STEFAN J,INGA K,LARISSA S,et al.Hostimmune responses after hypoxic reactivation of IFN-γ induced persistent Chlamydia trachomatis infection[J].Frontiers in Cellular and Infection Microbiology,2014,4:43. [43] COERS J,BERNSTEIN-HANLEY I,GROTSKY D,et al.Chlamydia muridarum evades growth restriction by the IFN-gamma-inducible host resistance factor Irgb 10[J].Journal of Immunology,2008,180(9):6237-6245. [44] DEL R L,MURCIA A,BUENDÍA A J,et al.Development of an in vivo model of Chlamydia abortus chronic infection in mice overexpressing IL-10[J].Veterinary Microbiology.2018,213:28-34. [45] SANCHEZ L R,GODOY G J,GOROSITO SERRÁN M,et al.IL-10 producing B cells dampen protective T cell response and allow Chlamydia muridarum infection of the male genital tract[J].Frontiers in Immunology,2019,10:356. [46] DU K,ZHOU M,LI Q,et al.Chlamydia trachomatis inhibits the production of pro-inflammatory cytokines in human PBMCs through induction of IL-10[J].Journal of Medical Microbiology,2018,67(2):240-248. [47] LAUSEN M,CHRISTIANSEN G,KARRED N,et al.Complement C3 opsonization of Chlamydia trachomatis facilitates uptake in human monocytes[J].Microbes and Infection,2018,20(6):328-336. [48] BODE J,DUTOW P,SOMMER K,et al.A new role of the complement system:C3 provides protection in a mouse model of lung infection with intracellular Chlamydia psittaci[J].PLoS One,2012,7(11):e50327. [49] 周琼艳,许素玲,周柳徽,等.内源性抗菌肽LL-37与女性生殖道沙眼衣原体感染相关性[J].中国艾滋病性病,2019,25(2):166-168. ZHOU Q Y,XU S L,ZHOU L H,et al.Correlation of endogenous antimicrobial peptides in female genital Chlamydia trachomatis infection[J].Chinese Journal of AIDS & STD,2019,25(2):166-168.(in Chinese) [50] LAZAREV V N,SHKARUPETA M M,POLINA N F,et al.Antimicrobial peptide from spider venom inhibits Chlamydia trachomatis infection at an early stage[J].Archives of Microbiology,2013,195(3):173-179. [51] LEWIES A,DU PLESSIS L H,WENTZEL J F.Antimicrobial peptides:The Achilles' Heel of antibiotic resistance[J].Probiotics and Antimicrobial Proteins,2019,11(2):370-381. [52] 王生.豚鼠结膜炎衣原体噬菌体phiCPG1衣壳蛋白Vp1的生物学作用[D].天津:天津医科大学,2017. WANG S.The biological effects of chlamydiaphage phiCPG1 capsid protein Vp1 on Chlamydia trachomatis[D].Tianjin:Tianjin Medical University,2017.(in Chinese) [53] CRAM E D,ROCKEY D D,DOLAN B P.Chlamydia spp.development is differentially altered by treatment with the LpxC inhibitor LPC-011[J].BMC Microbiology,2017,17(1):98. [54] BROWN M A,POTROZ M G,TEH S W,et al.Natural products for the treatment of Chlamydiaceae infections[J].Microorganisms,2016,4(4):39. |