弯曲菌对大环内酯类抗生素耐药机制研究进展

弯曲菌是一种全球普遍关注的引起人兽共患病的病原菌。由于临床治疗和养殖业的不合理使用抗生素,导致弯曲菌的耐药性日益严重。核糖体靶位点突变、核糖体蛋白变构和细胞膜上外排系统改变是弯曲菌对大环内酯类抗生素耐药的主要原因。就弯曲菌对大环内酯类抗生素的耐药现状和耐药机制进行综述。     

细菌对大环内酯类抗生素耐药的机制及控制策略

随着大环内酯类抗生素在临床的广泛使用,细菌对大环内酯类抗生素的耐药性日趋严重。细菌对大环内酯类药物耐药的机制,包括靶位(核糖体)的改变,细菌对大环内酯类抗生素的主动外排,细菌产生灭活大环内酯的酶等。本文就大环内酯类药物的耐药机制作一综述,并根据其耐药机制,从大环内酯类抗生素的结构修饰和主动外排抑制剂的应用等方面讨论了控制耐药性的策略。     

细菌对氨基糖苷类抗生素产生抗性的机理及其控制策略

氨基糖苷类抗生素在治疗感染性疾病尤其是革兰氏阴性菌引起的严重感染方面起着重要作用 ,但是耐药菌株的出现较大地限制了此类抗生素的发展 ,因此 ,如何控制耐药性已经成为一项迫切需要解决的任务。细菌对氨基糖苷类抗生素产生抗性的机制很多 ,目前普遍接受的主要有三种 :1. 通过减少对氨基糖苷类抗生素的摄取或减少药物在体内的累积而产生抗性。 2. 通过改变核糖体结合位点而产生抗性。 3. 通过表达氨基糖苷类抗生素修饰酶而产生抗性。目前细菌耐药性的控制主要集中在对原有氨基糖苷类抗生素进行改造或合成新的抗生素 ,开发氨基糖苷类抗生素修饰酶抑制剂。     

开封市鼓楼区健康人群大肠埃希菌耐药性调查

目的对开封市鼓楼区从业人员开展大肠埃希菌耐药性调查。方法对2300名健康从业人员分离到2010株大肠埃希菌用14种抗生素进行药敏试验。结果75．0％以上菌株对青霉素、氨苄西林、氯林克霉素和红霉素耐药,80％以上对先锋V、头孢三嗪、头孢哌酮敏感。71．0％菌株呈多重耐药性,耐药谱以青霉素类、大环内酯类、氨基糖苷类为主。结论导致大肠埃希菌高耐药性的原因是：（1）本地区抗生素使用造成的选择性压力;（2）抗生素的滥用;（3）不良卫生习惯。     

金黄色葡萄球菌耐药性分析

目的 分析金黄色葡萄球菌的耐药性。方法 对临床各科室送检标本,用MicroScan全自动细菌鉴定仪鉴定细菌种类并检测该菌对抗生素的敏感性。结果 检出金黄色葡萄球菌378株,其中MRSA为197株,检出率为52.1%.MSSA对苯唑西林,阿莫西林-棒酸,第1、2、3代头孢菌素等β-内酰胺类以及喹诺酮类、氨基糖苷类均甚敏感。MRSA对万古霉素敏感,未检出对万古霉素耐药或敏感性降低的菌株。对利福平、呋喃妥因有较好的敏感性.而对β-内酰胺类青霉素、苯唑西林和氨苄西林是100%的耐药,对头孢类抗生索、氟喹诺酮、大环内酯类及氨基糖苷类药物耐药率高。结论 β-内酰胺类抗生素、喹诺酮类、氨基糖苷类抗生素对MSSA感染的治疗效果较好;MRSA感染首选万古霉素或替考拉宁;利福平不能单独用于MRSA感染的治疗;呋喃妥因可用于创面伤口MRSA感染的治疗。     

抗生素的使用情况调查及细菌耐药性分析

目的:分析我院的抗生素的使用频率以及细菌耐药率的变化,为规范临床用药提供参考资料。方法:采用回顾性分析的方法对我院2009年3月-2013年3月收治的8000例住院患者的抗生素使用情况进行调查,并对我院临床上常见革兰阴性菌和阳性菌的耐药率变化进行比较,分析抗生素的使用频率与细菌耐药率变化之间的关系。结果:临床上抗生素的使用频率最大的是β-内酰胺酶抑制剂以及头孢菌素类。金葡菌对环丙沙星的耐药率与青霉素类抗生素的DDDs呈正相关,大肠埃希菌对亚胺培南的耐药率与头孢菌素类抗生素的DDDs呈负相关。结论:抗生素的用药频率与病原菌对抗生素的耐药率有相关性,并且,单一的抗生素并不能引起病原菌的耐药性,而会同时影响其他类型的抗生素的耐药情况。     

β-内酰胺酶(β-Lactamase)抑制剂的抑菌试验

自从抗生素被发现以来,许多传染病都得到了控制。然而随着抗生素的广泛应用,尤其是不合理的滥用,微生物对抗生素的耐药性问题也越趋严重,耐青霉素的细菌已达90％。对广泛使用的β-内酰胺类抗生素(青霉素、头孢霉素)的主要耐     

产β-内酰胺酶金黄色葡萄球菌的耐药分析

目的对产β-内酰胺酶金黄色葡萄球菌的标本分布和药物敏感试验进行分析,为临床使用抗生素提供依据。方法按照《全国临床检验操作规程》的要求接种．对分离出的220株金黄色葡萄球菌（Sta phylococcs aureus,Sau）,用头孢菌素显色法测定其β-内酰胺酶。结果220株金黄色葡萄球菌中产β-内酰胺酶171株,产酶率为77．7％,产酶株除对万古霉素、替考拉宁、利福平及复方新诺明敏感外,对其它的抗生素均呈现不同程度耐药,其中青霉素G、氨苄西林耐药率均为99．4％,红霉素为86．1％。结论产β-内酰胺酶株对青霉素类、大环内酯类抗生素呈现高度耐药,临床治疗不宜使用此类抗生素,提示临床选择药物时,应在药敏试验的指导下合理选择抗生素。     

近三年产气肠杆菌临床感染情况分析

目的监测嵊州市人民医院近三年产气肠杆菌对常用抗生素耐药情况。方法对嵊州市人民医院2013年至2015年间收集的产气肠杆菌临床科室分布情况进行统计,并做临床常用抗生素耐药性分析,用WHONET 5.4软件进行统计学分析。结果分离得到的产气肠杆菌主要来源于神经外科、重症医学科和呼吸内科的痰液和尿液标本。药敏结果显示其对第一、二代头孢类抗生素耐药率普遍较高:对头孢唑啉几乎全耐药,对头孢呋辛耐药率约为55%;第四代的头孢吡肟能明显抑制产气肠杆菌生长,2013年到2015年对头孢吡肟耐药率分别为8.18%、9.14%和10.74%;对氨基糖苷类抗生素庆大霉素和丁胺卡那,以及碳青霉烯类抗生素亚胺培南和美罗培南具有很高的敏感性。结论嵊州市人民医院院感科近年间通过对产气肠杆菌临床用药的合理监测,及时向临床医生反馈微生物实验室的耐药结果,避免了抗生素滥用,使得其对抗生素耐药率未出现明显提高。氨基糖苷类抗生素和碳青霉烯类抗生素对其仍具有很高的疗效,应继续通过药敏试验加强对其耐药性监测,指导临床合理用药。     

大熊猫源肺炎克雷伯菌耐药性和分子分型研究

【目的】对大熊猫源肺炎克雷伯菌进行耐药性及分子分型分析,掌握肺炎克雷伯菌在大熊猫圈养种群中的耐药和流行情况,指导临床用药。【方法】对2018–2019年收集到的178株大熊猫源肺炎克雷伯菌使用纸片扩散法(K-B法)分析耐药表型,使用Wafergen Smartchip超高通量荧光定量PCR法分析其耐药基因和可移动遗传元件,使用多位点序列分型(MLST)法分析其序列类型(ST)。【结果】178株大熊猫源肺炎克雷伯菌对多西环素耐药率最高(15.2%),而且2019年分离到的肺炎克雷伯菌对头孢噻肟、亚胺培南和阿奇霉素的耐药性显著高于2018年(P<0.05);检出耐药基因106种(106/227),可移动遗传元件11种(11/19),涉及的耐药机制主要为外排泵(42.0%)、抗生素失活(41.8%)和改变作用靶位(16.2%);MLST分型显示大熊猫源肺炎克雷伯菌主要分为42个不同的ST型,且ST型与耐药性具有一定的相关性。【结论】从2018年到2019年大熊猫源肺炎克雷伯菌对β-内酰胺类和大环内酯类抗生素耐药率有所增加,耐药机制以外排泵和抗生素失活为主。ST17、ST23和ST400...     

A novel beta-lactamase activity from a penicillin-binding protein of Treponema pallidum and why syphilis is still treatable with penicillin

Treponema pallidum, the causative agent of syphilis, is sensitive to penicillins. Yet, an abundant membrane-bound protein of this organism, Tp47, turns over penicillins. It is shown herein that the turnover process is a hydrolytic reaction that results in the corresponding penicilloates, products that have their beta-lactam bonds hydrolyzed. This is the reaction of beta-lactamases, bona fide resistance enzymes to beta-lactam antibiotics. Remarkably, the x-ray structure of Tp47 bears no resemblance to any other beta-lactamases or the related penicillin-binding proteins. Furthermore, evidence is presented that the reaction of Tp47 takes place in the absence of the zinc ion and does not involve intermediary acyl enzyme species. Hence, the beta-lactamase activity of Tp47 is the fifth known mechanism for turnover of beta-lactam antibiotics. Tp47 also exhibits a penicillin binding reaction, in the process of which the enzyme is covalently modified in the active site. The two reactions take place in two different active sites, and the events of the beta-lactamase activity are over 2,000-fold more rapid than the penicillin binding reaction. The level of beta-lactamase activity is high and is held back only by a strong product-inhibition component to the catalytic process. If natural selection would result in a mutant variant of Tp47 that overcomes product inhibition for the beta-lactamase activity, a novel bona fide resistance to penicillins will emerge in Treponema, which will be a disconcerting clinical development. The physiological functions of Tp47 are not known, but it is likely that this is at least a bifunctional enzyme involved in the processing of the Treponema peptidoglycan as a substrate.     

Antibiotic resistance is prevalent in an isolated cave microbiome

Antibiotic resistance is a global challenge that impacts all pharmaceutically used antibiotics. The origin of the genes associated with this resistance is of significant importance to our understanding of the evolution and dissemination of antibiotic resistance in pathogens. A growing body of evidence implicates environmental organisms as reservoirs of these resistance genes; however, the role of anthropogenic use of antibiotics in the emergence of these genes is controversial. We report a screen of a sample of the culturable microbiome of Lechuguilla Cave, New Mexico, in a region of the cave that has been isolated for over 4 million years. We report that, like surface microbes, these bacteria were highly resistant to antibiotics; some strains were resistant to 14 different commercially available antibiotics. Resistance was detected to a wide range of structurally different antibiotics including daptomycin, an antibiotic of last resort in the treatment of drug resistant Gram-positive pathogens. Enzyme-mediated mechanisms of resistance were also discovered for natural and semi-synthetic macrolide antibiotics via glycosylation and through a kinase-mediated phosphorylation mechanism. Sequencing of the genome of one of the resistant bacteria identified a macrolide kinase encoding gene and characterization of its product revealed it to be related to a known family of kinases circulating in modern drug resistant pathogens. The implications of this study are significant to our understanding of the prevalence of resistance, even in microbiomes isolated from human use of antibiotics. This supports a growing understanding that antibiotic resistance is natural, ancient, and hard wired in the microbial pangenome.     

Determinants of resistance to chlortetracycline and other antibiotics in chlortetracycline-producing strain of Streptomyces aureofaciens

Data are presented on resistance of Streptomyces aureofaciens strain TB-633 FU--the producer of chlortetracycline (CTC) to autogenous antibiotics and a number of other antibiotics. It is demonstrated that resistance to CTC is specified by ctr genes of constitutive expression as well as by inducible genes. CTC and ethidium bromide may serve as efficient inductors of inducible ctr genes. The induction process is accompanied by increase in antibiotic biosynthesis level. Genes responsible for strain resistance to a number of macrolide antibiotics and thiostrepton are inducible and only function in the presence of appropriate antibiotics in the medium. The action of inducible mtr gene(s) is described in detail. The gene(s) simultaneously ensure increase in resistance to CTC and a number of macrolide antibiotics in the presence of exogenous inductors in media, such as both CTC and macrolide antibiotics. Mutants have been isolated which provide constitutive level of resistance to these antibiotics. A series of ctr and mtr mutants have increased CTC biosynthesis as compared to the initial level. Data on comparative analysis of the results obtained from hybridization of fragments of S. aureofaciens and S. rimosus DNAs to actI and actIII genes, responsible for polyketide synthases' synthesis, demonstrate that genes for CTC and OTC biosynthesis are situated on DNA fragments of similar size. This determines the strategy for cloning ctr and mtr genes as well as genes for CTC biosynthesis from S. aureofaciens.     

大环内酯类抗生素微生物降解的研究进展

大环内酯类抗生素是一类以大环内酯为母核的广谱抗生素。近些年,由于人们对其不规范的生产和使用,抗生素污染成为了重要的环境问题。大量研究表明,微生物降解是现阶段处理抗生素污染的最理想方法。为进一步推动大环内酯类抗生素生物降解的研究,文中概述了大环内酯类抗生素的环境污染现状、微生物降解菌株、降解酶、降解途径和降解大环内酯类抗生素的微生物处理方法,并对大环内酯类抗生素生物降解亟待解决的瓶颈问题进行了讨论,以期为微生物降解后续研究提供参考。     

Molecular cloning of chlortetracycline resistance gene from chlortetracycline producer Streptomyces aureofaciens

The chlortetracycline (CT) resistance gene ctr was cloned from S. aureofaciens 633, a strain producing the antibiotic. The 6.6-kb DNA Bam HI fragment containing the resistance gene was cloned with the plasmid vector pIJ699. Comparison of the restriction maps of the cloned gene and the oxytetracycline (OT) resistance gene otrA from S. rimosus revealed their similarity which enabled identification of the cloned resistance gene as otrA. Investigation of the resistance determinants in S. aureofaciens 633 made it possible to identify a mtr gene(s). It was demonstrated that introduction of a ctrA gene into S. lividance provided a simultaneous increase in the resistance of the recipient strain to CT and a number of macrolide antibiotics. The CT resistance determinants in S. lividans TK64 showed properties of exogenous induction by CT and the macrolide antibiotics similar to the properties of the mtr gene(s) of S. aureofaciens. Possible adaptation properties of mtr genes are discussed.     

酵母中甾醇定向存储转运及理性强化技术研究进展

大环内酯类抗生素是一类以大环内酯为母核的广谱抗生素。近些年,由于人们对其不规范的生产和使用,抗生素污染成为了重要的环境问题。大量研究表明微生物降解是现阶段处理抗生素污染的最理想方法。为进一步推动大环内酯类抗生素生物降解的研究,文中概述了大环内酯类抗生素的环境污染现状、微生物降解菌株、降解酶、降解途径和降解大环内酯类抗生素的微生物处理方法,并对大环内酯类抗生素生物降解亟待解决的瓶颈问题进行了讨论,以期为微生物降解后续研究提供参考。     

肠杆菌科细菌肺部感染病原菌分布与耐药性监测

目的了解浙江龙游县人民医院肠杆菌科细菌肺部感染病原菌分布及耐药性,为临床合理使用抗菌药物提供依据。方法采用纸片扩散法对病原菌进行药敏试验,并进行ESBLs检测,按CLSI 2012年标准判定药敏结果,用WHONET 5.6软件分析结果。结果痰培养共分离出371株肠杆科细菌,主要为肺炎克雷伯菌、大肠埃希菌和阴沟肠杆菌,产ESBLs菌阳性率高,对碳青霉烯类抗菌药物耐药率低,均在10.00%以下,其他药物均有不同程度耐药,测试抗菌药物的耐药率差异有统计学意义（P〈0.05）。结论临床常见肠杆菌科细菌耐药率高,开展病原菌耐药性监测,对指导临床抗感染治疗合理选择抗菌药物具有重要意义。