Burnetii coxiella致病性的分子基础

IF 0.2 Q4 INFECTIOUS DISEASES

Infektsiya i Immunitet Pub Date : 2016-06-09 DOI:10.15789/2220-7619-2016-1-7-24

Yu. A. Panferova

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引用次数: 4

摘要

伯纳蒂克希菌是一种专性细胞内革兰氏阴性细菌病原体，是q热(一种人畜共患疾病)的病原，以急性(多为非典型肺炎)或慢性(多为心内膜炎)形式消失。宿主范围广泛，以哺乳动物、鸟类和节肢动物为代表，但人类感染的主要来源是农场动物。主要的感染途径是气溶胶。在与生物体接触的情况下，病原体与吞噬细胞单核-巨噬细胞系结合。伯氏梭菌促进宿主细胞中特定的吞噬溶酶体样腔室成熟，称为含coxiella液泡，在这个液泡内病原体被代谢激活并积极复制。Coxiella在环境中以代谢不活跃的孢子样形式存在。伯氏梭菌的内化是通过肌动蛋白介导的吞噬和拉链机制发生的。细菌内化成熟后，形成吞噬溶酶体样腔室和含有大叶藻的液泡，液泡几乎可以占据宿主细胞的整个细胞质。感染细胞的存活对慢性伯纳氏梭菌感染很重要。burnetii通过积极抑制凋亡信号级联反应和诱导促存活因子两种途径延长宿主细胞的生存能力。但伯纳氏梭菌在含柯氏菌液泡形成过程中涉及自噬途径，自噬的诱导促进了病原体的复制。在感染过程中，伯纳氏梭菌利用IV型分泌系统将效应底物从细菌胞底转运到真核细胞胞底，其中效应物调节宿主细胞蛋白。总共约有130种IV型转运系统的分泌效应物，但其中大多数的功能至今仍不清楚。鉴定了多种菌株和分离株的特异性特异性蛋白质，证实了伯纳蒂胞杆菌可能存在某些致病型。鉴定和表征新的毒力因子，现在有可能通过无菌培养基对伯纳蒂胞杆菌进行培养和开发位点特异性诱变等遗传技术，这对研究伯纳蒂胞杆菌的分子发病机制具有重要意义。

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МОЛЕКУЛЯРНЫЕ ОСНОВЫ ПАТОГЕННОСТИ COXIELLA BURNETII

Coxiella burnetii is an obligate intracellular gram-negative bacterial pathogen, an ethiological agent of Q-fever, a zoonotic disease, elapsing as an acute (mostly atypical pneumonia) or a chronic (mostly endocarditis) form. The host range is represented by wide range of mammal, avian and arthropod species, but the main source of human infection are farm animals. The main route of infection is aerosolic. In case of contact with organism pathogen binds with phagocytal monocytic-macrophagal cell line. C. burnetii promotes maturation of specific phagolysosome-like compartment in host cell, called coxiella-containing vacuole, within this vacuole pathogen becames metabolically activated and actively replicates. Coxiella persists as metabolically inactive spore-like form in environment. Internalisation of C. burnetii occurs using actin-mediated phagocytosis and zipper mechanism. After internalization of bacteria maturation of phagolysosome-like compartment and large coxiella-containing vacuole formation occure, and vacuole can occupy nearly the whole cytoplasm of the host cell. Survivance of infected cells is important for chronic infection with C. burnetii. C. burnetii elongate the viability of host cell by two ways: it actively inhibits apoptotic signal cascades and induce pro-survival factors. Except that C. burnetii involves autophagic pathway during coxiella-containing vacuole formation, and induction of autophagy promotes pathogen replication. During infection C. burnetii translocates effector substrates from bacterial cytosole to euca ryotic host cell cytosole using type IV secretion system, where effectors modulate host cell proteins. Overall approximately 130 secreted effectors of type IV transport system, but function of most of them remains unknown to date. Specific sec reted proteins for variety of strains and isolates were identified, confirmed that certain pathotypes of C. burnetii can exist. Identification and characterization of novel virulence factors it is now possible through axenic media for C. burnetii cultivation and development of site-specific mutagenesis and other genetic technics, which is important for research of C. burnetii molecular pathogenesis.

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来源期刊

Infektsiya i Immunitet INFECTIOUS DISEASES-

CiteScore

1.40

自引率

50.00%

发文量

审稿时长

10 weeks

期刊介绍： Journal "Infektsiya i immunitet" ("Russian Journal of Infection and Immunity") established by Northwest Branch of RAMS, St. Petersburg Pasteur Institute and the St. Petersburg branch of the Russian Association of Allergologists and Clinical Immunologists, with the participation of the St. Petersburg branch of All-Russian Practical Society of epidemiologists, microbiologists and parasitologists at St. Petersburg and Leningrad region. The journal is devoted to numerous aspects of the interaction between different microorganisms and the host organism. Journal is of interest for microbiologists, immunologists, epidemiologists and clinicians. The most detailed discussion of the following questions: • molecular basis of infections caused by pathogenic bacteria, fungi and parasites; • mechanisms of pathogenicity of microorganisms; • the impact of microbial virulence factors on host cells; • factors and mechanism to protect the host from infection; • factors of nonspecific and specific immunity; • experimental models of infectious disease; • development of vaccines and nonspecific anti-infectious defense.