鉴定新型药物靶点以对抗鲍曼不动杆菌外排泵介导的多药耐药性

IF 1 Q4 GENETICS & HEREDITY Gene Reports Pub Date : 2024-08-16 DOI:10.1016/j.genrep.2024.102013
Shyamalima Saikia , Indrani Gogoi , Minakshi Puzari , Mohan Sharma , Pankaj Chetia
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引用次数: 0

摘要

耐多药(MDR)鲍曼不动杆菌的出现对全球医疗系统构成了日益严重的威胁。导致耐药性增加的一个重要因素是染色体编码的外排泵过度表达,这种泵能将抗生素排出细菌细胞,从而降低治疗效果。外排泵不仅通过药物外排介导抗生素耐药性,还与其他耐药机制协同作用,从而使耐药性加倍。尽管外排泵在抗生素耐药性中起着至关重要的作用,但人们对其结构、功能、作用机制和调控的了解仍然有限,而这对于制定有效的策略来恢复药物敏感性和抗击 MDR 分离物是十分必要的。在此背景下,本研究采用表型和基因型方法评估了临床鲍曼不动杆菌分离物中外排泵过度表达的流行率,并采用基于网络的方法确定了潜在的治疗靶点。共收集了 172 个鲍曼尼氏菌分离株,并使用柯比鲍尔盘扩散法进行了抗生素药敏试验。结果发现,所有分离株都具有 MDR,其中 94.76% 对碳青霉烯类产生耐药性。使用溴化乙锭琼脂车轮法检测到 54.65% 的分离株存在外排泵过表达,使用间氯苯海佐氰(CCCP)检测到 68.71% 的分离株存在外排泵抑制活性。利用诊断性 PCR 在受测分离物中共检测到 13 个外排泵基因,并考虑利用 STRING 对这些基因进行相互作用网络分析。对合并网络的聚类分析发现了两个高度相互关联的簇,每个簇都包含对外排泵功能和调控至关重要的功能伙伴。包括AdeB、AdeJ、AdeK、AdeC、macB、tolC、AIL80285.1、AdeR和AdeS在内的关键枢纽基因因其对网络的重大影响而被确定为主要靶标。此外,有 24 个聚类基因被确定为潜在的药物靶点,用于开发新型疗法,以应对鲍曼不动杆菌外排泵介导的 MDR 这一严峻挑战。
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Identification of novel drug targets to counteract efflux pump mediated multidrug resistance in Acinetobacter baumannii

The emergence of multidrug-resistant (MDR) Acinetobacter baumannii poses an escalating threat to the healthcare system worldwide. A significant factor contributing to increasing resistance is the overexpression of chromosomally encoded efflux pumps, which expel antibiotics from bacterial cells, thereby rendering treatments less effective. The efflux pumps not only mediate resistance to antibiotics through drug efflux but also work synergistically with other resistance mechanisms, thereby doubling the resistance. Despite their crucial role in antibiotic resistance, understanding of the structure, function, mechanisms of action, and regulation of efflux pumps remains limited, which is necessary for devising effective strategies to restore drug susceptibility and to combat MDR isolates. In this context, the present study evaluated the prevalence of efflux pump overexpression in clinical A. baumannii isolates using phenotypic and genotypic methods and identified potential therapeutic targets employing a network-based approach. A total of 172 A. baumannii isolates were collected and subjected to antibiotic susceptibility tests using the Kirby-Bauer disk diffusion method. All the isolates were found to be MDR, with 94.76 % showing resistance to carbapenems. Efflux pump overexpression was detected in 54.65 % of isolates using the Ethidium-Bromide Agar Cartwheel method, and efflux pump inhibitory activity was observed in 68.71 % of isolates using cyanide m-chlorophenylhydrazone (CCCP). A total of thirteen efflux pump genes were detected in the tested isolates using diagnostic PCR, which were considered for interaction network analysis using STRING. Clustering analysis of the merged network identified two highly interconnected clusters, each comprising functional partners crucial for efflux pump function and regulation. Key hub genes, including AdeB, AdeJ, AdeK, AdeC, macB, tolC, AIL80285.1, AdeR, and AdeS, were identified as primary targets due to their significant influence on the network. Additionally, 24 clustered genes were pinpointed as potential drug targets for developing novel therapeutics to combat the formidable challenge of efflux pump-mediated MDR in A. baumannii.

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来源期刊
Gene Reports
Gene Reports Biochemistry, Genetics and Molecular Biology-Genetics
CiteScore
3.30
自引率
7.70%
发文量
246
审稿时长
49 days
期刊介绍: Gene Reports publishes papers that focus on the regulation, expression, function and evolution of genes in all biological contexts, including all prokaryotic and eukaryotic organisms, as well as viruses. Gene Reports strives to be a very diverse journal and topics in all fields will be considered for publication. Although not limited to the following, some general topics include: DNA Organization, Replication & Evolution -Focus on genomic DNA (chromosomal organization, comparative genomics, DNA replication, DNA repair, mobile DNA, mitochondrial DNA, chloroplast DNA). Expression & Function - Focus on functional RNAs (microRNAs, tRNAs, rRNAs, mRNA splicing, alternative polyadenylation) Regulation - Focus on processes that mediate gene-read out (epigenetics, chromatin, histone code, transcription, translation, protein degradation). Cell Signaling - Focus on mechanisms that control information flow into the nucleus to control gene expression (kinase and phosphatase pathways controlled by extra-cellular ligands, Wnt, Notch, TGFbeta/BMPs, FGFs, IGFs etc.) Profiling of gene expression and genetic variation - Focus on high throughput approaches (e.g., DeepSeq, ChIP-Seq, Affymetrix microarrays, proteomics) that define gene regulatory circuitry, molecular pathways and protein/protein networks. Genetics - Focus on development in model organisms (e.g., mouse, frog, fruit fly, worm), human genetic variation, population genetics, as well as agricultural and veterinary genetics. Molecular Pathology & Regenerative Medicine - Focus on the deregulation of molecular processes in human diseases and mechanisms supporting regeneration of tissues through pluripotent or multipotent stem cells.
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