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在肺炎链球菌临床分离株中,产生赋予高水平β-内酰胺抗性的改变的PBP 2X所必需的氨基酸突变。

Amino acid mutations essential to production of an altered PBP 2X conferring high-level beta-lactam resistance in a clinical isolate of Streptococcus pneumoniae.

作者信息

Smith Anthony M, Klugman Keith P

机构信息

Respiratory and Meningeal Pathogens Research Unit, National Institute for Communicable Diseases, Medical Research Council, Johannesburg, South Africa.

出版信息

Antimicrob Agents Chemother. 2005 Nov;49(11):4622-7. doi: 10.1128/AAC.49.11.4622-4627.2005.

Abstract

Altered penicillin-binding protein 2X (PBP 2X) is a primary beta-lactam antibiotic resistance determinant and is essential to the development of penicillin and cephalosporin resistance in the pneumococcus. We have studied the importance for resistance of 23 amino acid substitutions located in the transpeptidase domain (TD) of PBP 2X from an isolate with high-level resistance, isolate 3191 (penicillin MIC, 16 mug/ml; cefotaxime MIC, 4 microg/ml). Strain R6(2X/2B/1A/mur) (for which the MICs are as described for isolate 3191) was constructed by transforming laboratory strain R6 with all the necessary resistance determinants (altered PBPs 2X, 2B, and 1A and altered MurM) from isolate 3191. Site-directed mutagenesis was used to reverse amino acid substitutions in altered PBP 2X, followed by investigation of the impact of these reversions on resistance levels in R6(2X/2B/1A/mur). Of the 23 substitutions located in the TD of PBP 2X, reversals at six positions decreased the resistance levels in R6(2X/2B/1A/mur). Reversal of the Thr338Pro and Ile371Thr substitutions individually decreased the penicillin and cefotaxime MICs to 2 and 1 microg/ml, respectively, and individually displayed the greatest impact on resistance. To a lesser extent, reversal of the Leu364Phe, Ala369Val, Arg384Gly, and Tyr595Phe substitutions individually also decreased the penicillin and cefotaxime MICs. Reversal at all six positions collectively decreased both the penicillin and the cefotaxime MICs of R6(2X/2B/1A/mur) to 0.06 microg/ml. This study confirms the essential role of altered PBP 2X as a resistance determinant. Our data reveal that, for isolate 3191, the six amino acid substitutions described above are collectively essential to the production of an altered PBP 2X required for high-level resistance to penicillin and cefotaxime.

摘要

改变的青霉素结合蛋白2X(PBP 2X)是主要的β-内酰胺抗生素耐药决定因素,对肺炎球菌中青霉素和头孢菌素耐药性的产生至关重要。我们研究了来自高水平耐药菌株3191(青霉素MIC,16μg/ml;头孢噻肟MIC,4μg/ml)的PBP 2X转肽酶结构域(TD)中23个氨基酸取代对耐药性的重要性。通过用来自菌株3191的所有必要耐药决定因素(改变的PBPs 2X、2B和1A以及改变的MurM)转化实验室菌株R6构建了菌株R6(2X/2B/1A/mur)(其MIC如菌株3191所述)。使用定点诱变来逆转改变的PBP 2X中的氨基酸取代,随后研究这些逆转对R6(2X/2B/1A/mur)耐药水平的影响。在PBP 2X的TD中定位的23个取代中,六个位置的逆转降低了R6(2X/2B/1A/mur)的耐药水平。Thr338Pro和Ile371Thr取代的逆转分别将青霉素和头孢噻肟的MIC降低至2和1μg/ml,并且各自对耐药性表现出最大影响。在较小程度上,Leu364Phe、Ala369Val、Arg384Gly和Tyr595Phe取代的逆转也分别降低了青霉素和头孢噻肟的MIC。所有六个位置的逆转共同将R6(2X/2B/1A/mur)的青霉素和头孢噻肟MIC降低至0.06μg/ml。本研究证实了改变的PBP 2X作为耐药决定因素的重要作用。我们的数据表明,对于菌株3191,上述六个氨基酸取代共同对于产生对青霉素和头孢噻肟高水平耐药所需的改变的PBP 2X至关重要。

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