替加环素耐药分析外排泵系统和其他耐药相关基因突变。

Analysis of Efflux Pump System and Other Drug Resistance Related Gene Mutations in Tigecycline-Resistant .

机构信息

Department of Pulmonary and Critical Care Medicine, the Third Affiliated Hospital of Sun Yat-Sen University, Sun Yat-Sen University, and Institute of Respiratory Diseases, Guangzhou 510000, China.

出版信息

Comput Math Methods Med. 2023 Feb 17;2023:8611542. doi: 10.1155/2023/8611542. eCollection 2023.

DOI:10.1155/2023/8611542

PMID:36846201

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9957652/

Abstract

BACKGROUND

The isolation of tigecycline-resistant in recent years has brought great difficulties to clinical prevention and treatment.

PURPOSE

To explore the effect of efflux pump system and other resistance related gene mutations on tigecycline resistance in .

METHODS

Fluorescence quantitative PCR was used to detect the expression levels of major efflux pump genes (, , and ) in extensive drug-resistant . The minimum inhibitory concentration (MIC) of tigecycline was detected by the broth microdilution testing and efflux pump inhibition experiment to assess the role of efflux pump in tigecycline resistance of . Efflux pump regulatory genes ( and ) and tigecycline resistance related genes (, , and ) were amplified by PCR and sequenced. By sequence alignment, tigecycline sensitive and tigecycline-insensitive were compared with standard strains to analyze the presence of mutations in these genes.

RESULTS

The relative expression of in the tigecycline-insensitive was significantly higher than that in the tigecycline sensitive (114.70 (89.53-157.43) vs 86.12 (27.23-129.34), = 0.025). When efflux pump inhibitor carbonyl cyanide 3-chlorophenylhydrazone (CCCP) was added, the percentage of tigecycline-insensitive with tigecycline MIC decreased was significantly higher than that of tigecycline-sensitive (10/13 (76.9%) vs 26/59 (44.1%)), = 0.032); the relative expression of in the MIC decreased group was significantly higher than that in the MIC unchanged group (110.29 (63.62-147.15) vs 50.06 (26.10-122.59), = 0.02); The relative expression levels of efflux pumps and did not increase significantly, and there was no significant difference between these groups. One point mutation (Gly232Ala) and eight point mutations (Ala97Thr, Leu105Phe, Leu172Pro, Arg195Gln, Gln203Leu, Tyr303Phe, Lys315Asn, Gly319Ser) were newly detected. Consistent mutations in and genes were detected in both tigecycline-insensitive and tigecycline-sensitive , but no mutation in gene was detected in them.

CONCLUSION

Tigecycline-insensitive efflux pump overexpression was an important mechanism for tigecycline resistance, and the mutations of efflux pump regulator genes ( and ) are responsible for overexpression. The effect of , , and gene mutations on the development of tigecycline resistance in remains controversial.

摘要

背景

近年来替加环素耐药的分离给临床防治带来了极大困难。

目的

探讨外排泵系统等耐药相关基因突变对替加环素耐药的影响。

方法

荧光定量 PCR 检测广泛耐药中主要外排泵基因（、、）的表达水平。采用肉汤微量稀释法检测替加环素最小抑菌浓度（MIC），并进行外排泵抑制实验，评估外排泵在替加环素耐药中的作用。扩增外排泵调节基因（、）和替加环素耐药相关基因（、、），并进行测序。通过序列比对，将替加环素敏感株和替加环素耐药株与标准株进行比较，分析这些基因是否存在突变。

结果

替加环素耐药株的相对表达量明显高于替加环素敏感株（114.70（89.53-157.43）比 86.12（27.23-129.34）， = 0.025）。加入外排泵抑制剂碳酰氰基-3-氯苯腙（CCCP）后，替加环素耐药株 MIC 降低的比例明显高于替加环素敏感株（10/13（76.9%）比 26/59（44.1%））， = 0.032）；MIC 降低组的相对表达量明显高于 MIC 不变组（110.29（63.62-147.15）比 50.06（26.10-122.59）， = 0.02）；外排泵和的相对表达水平无明显升高，且各组间无显著差异。新发现 1 个点突变（Gly232Ala）和 8 个点突变（Ala97Thr、Leu105Phe、Leu172Pro、Arg195Gln、Gln203Leu、Tyr303Phe、Lys315Asn、Gly319Ser）。替加环素耐药株和替加环素敏感株均检测到和基因的一致突变，但未检测到基因的突变。

结论

替加环素耐药株外排泵过度表达是替加环素耐药的重要机制，外排泵调节基因（、）的突变导致过度表达。、、基因突变对替加环素耐药的发展仍存在争议。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b792/9957652/b5e0e946e3db/CMMM2023-8611542.001.jpg

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替加环素耐药 分析外排泵系统和其他耐药相关基因突变。

Analysis of Efflux Pump System and Other Drug Resistance Related Gene Mutations in Tigecycline-Resistant .

机构信息

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PURPOSE

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RESULTS

CONCLUSION

背景

目的

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结果

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替加环素耐药分析外排泵系统和其他耐药相关基因突变。