BiomedExperts: NMR-based analysis of aminoglycoside recognition by the resistance enzyme ANT(4'): the pattern of OH/NH3(+) substitution determines the preferred antibiotic binding mode and is critical for drug inactivation.

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2008: Revuelta Julia; Vacas Tatiana; Torrado Mario; Corzana Francisco; Gonzalez Carlos; Jiménez-Barbero Jesús; Menendez Margarita; Bastida Agatha; Asensio Juan Luis
NMR-based analysis of aminoglycoside recognition by the resistance enzyme ANT(4'): the pattern of OH/NH3(+) substitution determines the preferred antibiotic binding mode and is critical for drug inactivation.
Journal of the American Chemical Society 2008;130(15):5086-103.

The most significant mechanism of bacterial resistance to aminoglycosides is the enzymatic inactivation of the drug. Herein, we analyze several key aspects of the aminoglycoside recognition by the resistance enzyme ANT(4') from Staphylococcus aureus, employing NMR complemented with site-directed mutagenesis experiments and measurements of the enzymatic activity on newly synthesized kanamycin derivatives. From a methodological perspective, this analysis provides the first example reported for the use of transferred NOE (trNOE) experiments in the analysis of complex molecular recognition processes, characterized by the existence of simultaneous binding events of the ligand to different regions of a protein receptor. The obtained results show that, in favorable cases, these overlapping binding processes can be isolated employing site-directed mutagenesis and then independently analyzed. From a molecular recognition perspective, this work conclusively shows that the enzyme ANT(4') displays a wide tolerance to conformational variations in the drug. Thus, according to the NMR data, kanamycin-A I/II linkage exhibits an unusual anti-Psi orientation in the ternary complex, which is in qualitative agreement with the previously reported crystallographic complex. In contrast, closely related, kanamycin-B is recognized by the enzyme in the syn-type arrangement for both glycosidic bonds. This observation together with the enzymatic activity displayed by ANT(4') against several synthetic kanamycin derivatives strongly suggests that the spatial distribution of positive charges within the aminoglycoside scaffold is the key feature that governs its preferred binding mode to the protein catalytic region and also the regioselectivity of the adenylation reaction. In contrast, the global shape of the antibiotic does not seem to be a critical factor. This feature represents a qualitative difference between the target A-site RNA and the resistance enzyme ANT(4') as aminoglycoside receptors.

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