摘要
目的探讨莫西沙星(MXF)与左氧氟沙星(LVF)对结核分枝杆菌的交叉耐药性及耐药基因突变位点,为临床用药提供理论依据。方法选取结核分枝杆菌标准株H37Rv和73株左氧氟沙星耐药的耐多药结核分枝杆菌(MDR-TB)临床分离株以及5株对左氟沙星敏感的MDR-TB临床分离株,以试管二倍稀释法采用7H9培养基,测定以上菌株对MXF和LVF的MIC;通过直接测序法测定gyrA基因喹诺酮类药物耐药决定区(QRDR)320 bp的基因突变位点。结果MXF的MIC比LVF低4~8倍;H37Rv未发生gyrA基因突变;78株MDR-TB临床分离株均有Ser95Thr突变;73株LVF耐药的MDR-TB菌株中,35株(47.94%)对LVF低耐药(MIC为1~8μg/ml)的菌株和31株(42.46%)对LVF高耐药株中,除4株只有Ser95Thr突变外,其他菌株同时有Ala90Val、Asp94His、Asp94Asn、Asp94Gly、Asp94Ala、Asp94Tyr突变。结论莫西沙星较左氧氟沙星的抗结核活性强4~8倍,为不完全交叉耐药;gyrA基因90位和94位突变与MDR-TB菌株对LVF、MXF耐药有关,低耐药与高耐药的突变氨基酸种类有差别,有望将测序作为临床左氟沙星分子药敏试验方法。
Objective To investigating the cross resistance of moxifloxacin and levofloxacin in M. tuberculosis, gene mutations of quinolone-resistant isolates to provide a theoretical basis for clinical treatment. Methods M. tuberculosis strain HavRv and 78 multidrug-resistant M. tuberculosis clinical isolates (73 LVF-resistant and 5 LVF-sensitive) were studied. The MICs of these isolates to moxifloxacin and levofloxacin were determined by the tube doubling dilution method on 7H9 media. The quinolone resistance-determining region (QRDR) mutations of gyrA genes from M. tuberculosis isolates were detected with DNA sequencing. Results The MICs of MXF were lower 4 to 8 fold than that of LVF. The strain HaTRv wasn't found any gyrA gene mutation. 78 MDR-TB isolates have Ser95Thr gyrA mutations. Of 73 MDR-TB isolates with LVF resistance, 35(47.94%) were low-resistant to LVF (MICs 1 to 8μg/ml), al (42.46%)were high-resistant to LVF. Four isolates have only gyrA Ser95Thr mutation, the other isolates had combinative gene mutations as follow: Ala90Val, Asp94His, Asp94Asn, Asp94Gly, Asp94Ala, and Asp94Tyr. Conclusions The MXF and LVF presented a incomplete cross-resistance. The mutation of gyrA gene correlates with the LVF and MXF resistances in M. tuberculosis.
出处
《中国防痨杂志》
CAS
2009年第8期469-472,共4页
Chinese Journal of Antituberculosis
关键词
分枝杆菌
结核
抗药性
多种
细菌
莫西沙星
氧氟沙星
Mycobaeterium tuberculosis
Drug resistance, multiple, bacterial
moxifloxacin
Ofloxacin
