利福平和利福布汀对rpoB基因突变而表型敏感的结核菌耐药性研究OA
Study on the drug resistance to rifampicin and rifabutin in Mycobacterium tuberculosis with rpoB gene mutation but phenotypically sensitive
目的:研究利福平(rifampicin,RIF)和利福布汀(rifabutin,RFB)两种药物对rpoB基因突变而表型敏感的结核分枝杆菌(Mycobacterium tuberculosis,MTB)耐药性的差异.方法:收集2022年1月—2024年12月南京中医药大学附属南京医院肺结核患者痰液或肺泡灌洗液标本,经MTB培养、Xpert分子药敏检测及rpoB基因测序,筛选出RIF表型敏感、低度耐药及部分高度耐药的rpoB突变菌株,采用浓度梯度法测定RIF和RFB的最小抑菌浓度(minimum inhibitory concentration,MIC).结果:共纳入298 株分子和表型药敏均呈阳性菌株,分子药敏检测RIF耐药的灵敏度为93.3%,特异度为94.6%,准确率为94.3%.在82株分子耐药菌株中,96.3%检测出rpoB基因突变,常见的突变点为531、526、511.琼脂固体药敏结果显示:S531L、H526Y、H526R、H526Q、D516V对RIF高度耐药;S512G、S522L、L533P对RIF低度耐药;H526L、D516Y、L511P、P483L对RIF敏感.MIC检测发现,仅H526L和L511P对两种药物均敏感;而S531L、L511P+H526Q双突变、H526D、D516Y、S512G、S522L、L533P、P483L等突变对RIF耐药但对RFB敏感.整体上,rpoB突变株对数转换的RIF MIC(log2RIF-MIC)值[3.50(1.00,4.00)]显著高于对数转换的RFB MIC(log2 RFB-MIC)值[2.00(-3.00,3.75)](Z=-4.481,P<0.001).结论:rpoB突变位点差异导致MTB对RIF和RFB耐药水平不同.相比RIF,RFB对多种rpoB突变株(如L511P、H526L、D516Y、S522L等)具有更低的MIC值及潜在的临床有效性.通过对rpoB突变位点进行精准分析并评估其对RFB的敏感性,可为"分子耐药-表型敏感"的临床困境提供新思路,并为利福霉素类药物的个体化分层治疗提供依据.
Objective:To examine the variations in drug resistance between rifampicin(RIF)and rifabutin(RFB)in Mycobacterium tuberculosis(MTB)with rpoB gene mutations but phenotypically sensitive.Methods:Sputum or bronchoalveolar lavage fluid samples from pulmonary tuberculosis patients at the Affiliated Nanjing Hospital of Nanjing University of Chinese Medicine from January 2022 to December 2024 were collected.These samples underwent MTB culture,Xpert molecular drug susceptibility testing(DST),and rpoB gene sequencing.Strains with rpoB mutations that were phenotypically sensitive,showed low-level resistance,or selected cases of high-level resistance to RIF were screened.The minimum inhibitory concentrations(MIC)of RIF and RFB were determined using the concentration gradient method.Results:A total of 298 strains were included,with both molecular and phenotypic DST being positive.The molecular DST showed a sensitivity of 93.3%and a specificity of 94.6%for detecting RIF resistance,with an overall accuracy of 94.3%.Among 82 molecularly resistant strains,rpoB gene mutations were detected in 96.3%,with common mutation sites at codons 531,526,and 511.Agar-based phenotypic DST results showed that S531L,H526Y,H526R,H526Q,and D516V mutations conferred high-level resistance to RIF;S512G,S522L,and L533P conferred low-level resistance;while H526L,D516Y,L511P,and P483L mutations were phenotypically sensitive to RIF.MIC testing revealed that only H526L and L511P mutations were sensitive to both drugs.In contrast,strains with mutations including S531L,L511P combined with H526Q,H526D,D516Y,S512G,S522L,L533P,and P483L were resistant to RIF but remained sensitive to RFB.Overall,the log-transformed RIF MIC(log2 RIF-MIC)value[3.50(1.00,4.00)]for rpoB mutant strains was significantly higher than the log-transformed RFB MIC(log2 RFB-MIC)value[2.00(-3.00,3.75)](Z=-4.481,P<0.001).Conclusion:This study demonstrates that different rpoB mutation sites lead to varying levels of resistance to RIF and RFB in MTB.Compared to RIF,RFB exhibits lower MIC values and potential clinical effectiveness against various rpoB mutant strains(e.g.,L511P,H526L,D516Y,S522L,etc.).Precise analysis of rpoB mutation sites and evaluation of their susceptibility to RFB may offer a new strategy to address the clinical dilemma of"molecular resistance-phenotypic sensitivity"and provide a basis for formulating individualized,stratified treatment plans using rifamycin drugs.
杨燕;胡琴琴;刘裔;黄艳;张向荣
南京中医药大学附属南京医院(南京市第二医院)结核科,江苏 南京 210003南京中医药大学附属南京医院(南京市第二医院)检验检测中心,江苏 南京 210003南京中医药大学附属南京医院(南京市第二医院)结核科,江苏 南京 210003南京中医药大学附属南京医院(南京市第二医院)结核科,江苏 南京 210003南京中医药大学附属南京医院(南京市第二医院)结核科,江苏 南京 210003
医药卫生
分枝杆菌表型药敏基因突变分层治疗利福平利福布汀
Mycobacterium tuberculosisphenotypic drug susceptibilitygenetic mutationstratified treatmentrifampicinrifabutin
《南京医科大学学报(自然科学版)》 2026 (3)
375-383,9
南京市卫生科技发展专项资金项目(YKK23131)
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