Crystal Structures of Antibiotic-Bound Complexes of Aminoglycoside 2鈥测€?Phosphotransferase IVa Highlight the Diversity in Substrate Binding Modes among Aminoglycoside Kinases
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- 作者:Kun Shi ; Douglas R. Houston ; Albert M. Berghuis
- 刊名:Biochemistry
- 出版年:2011
- 出版时间:July 19, 2011
- 年:2011
- 卷:50
- 期:28
- 页码:6237-6244
- 全文大小:933K
- 年卷期:v.50,no.28(July 19, 2011)
- ISSN:1520-4995
文摘
Aminoglycoside 2鈥测€?phosphotransferase IVa [APH(2鈥测€?-IVa] is a member of a family of bacterial enzymes responsible for medically relevant resistance to antibiotics. APH(2鈥测€?-IVa confers high-level resistance against several clinically used aminoglycoside antibiotics in various pathogenic Enterococcus species by phosphorylating the drug, thereby preventing it from binding to its ribosomal target and producing a bactericidal effect. We describe here three crystal structures of APH(2鈥测€?-IVa, one in its apo form and two in complex with a bound antibiotic, tobramycin and kanamycin A. The apo structure was refined to a resolution of 2.05 脜, and the APH(2鈥测€?-IVa structures with tobramycin and kanamycin A bound were refined to resolutions of 1.80 and 2.15 脜, respectively. Comparison among the structures provides insight concerning the substrate selectivity of this enzyme. In particular, conformational changes upon substrate binding, involving rotational shifts of two distinct segments of the enzyme, are observed. These substrate-induced shifts may also rationalize the altered substrate preference of APH(2鈥测€?-IVa in comparison to those of other members of the APH(2鈥测€? subfamily, which are structurally closely related. Finally, analysis of the interactions between the enzyme and aminoglycoside reveals a distinct binding mode as compared to the intended ribosomal target. The differences in the pattern of interactions can be utilized as a structural basis for the development of improved aminoglycosides that are not susceptible to these resistance factors.