Literature DB >> 22948879

Structure-activity relationships among the kanamycin aminoglycosides: role of ring I hydroxyl and amino groups.

Sumantha Salian1, Tanja Matt, Rashid Akbergenov, Shinde Harish, Martin Meyer, Stefan Duscha, Dmitri Shcherbakov, Bruno B Bernet, Andrea Vasella, Eric Westhof, Erik C Böttger.   

Abstract

The kanamycins form an important subgroup of the 4,6-disubstituted 2-deoxystreptamine aminoglycoside antibiotics, comprising kanamycin A, kanamycin B, tobramycin, and dibekacin. These compounds interfere with protein synthesis by targeting the ribosomal decoding A site, and they differ in the numbers and locations of amino and hydroxy groups of the glucopyranosyl moiety (ring I). We synthesized kanamycin analogues characterized by subtle variations of the 2' and 6' substituents of ring I. The functional activities of the kanamycins and the synthesized analogues were investigated (i) in cell-free translation assays on wild-type and mutant bacterial ribosomes to study drug-target interaction, (ii) in MIC assays to assess antibacterial activity, and (iii) in rabbit reticulocyte translation assays to determine activity on eukaryotic ribosomes. Position 2' forms an intramolecular H bond with O5 of ring II, helping the relative orientations of the two rings with respect to each other. This bond becomes critical for drug activity when a 6'-OH substituent is present.

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Year:  2012        PMID: 22948879      PMCID: PMC3497201          DOI: 10.1128/AAC.01326-12

Source DB:  PubMed          Journal:  Antimicrob Agents Chemother        ISSN: 0066-4804            Impact factor:   5.191


  39 in total

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Authors:  G Grentzmann; J A Ingram; P J Kelly; R F Gesteland; J F Atkins
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2.  A single 16S ribosomal RNA substitution is responsible for resistance to amikacin and other 2-deoxystreptamine aminoglycosides in Mycobacterium abscessus and Mycobacterium chelonae.

Authors:  T Prammananan; P Sander; B A Brown; K Frischkorn; G O Onyi; Y Zhang; E C Böttger; R J Wallace
Journal:  J Infect Dis       Date:  1998-06       Impact factor: 5.226

3.  Inhibition of ribosomal translocation by aminoglycoside antibiotics.

Authors:  M J Cabañas; D Vázquez; J Modolell
Journal:  Biochem Biophys Res Commun       Date:  1978-08-14       Impact factor: 3.575

4.  Binding of neomycin-class aminoglycoside antibiotics to mutant ribosomes with alterations in the A site of 16S rRNA.

Authors:  Sven N Hobbie; Peter Pfister; Christian Bruell; Peter Sander; Boris François; Eric Westhof; Erik C Böttger
Journal:  Antimicrob Agents Chemother       Date:  2006-04       Impact factor: 5.191

5.  Aminoglycoside antibiotics and eukaryotic protein synthesis: stimulation of errors in the translation of natural messengers in extracts of cultured human cells.

Authors:  J M Wilhelm; J J Jessop; S E Pettitt
Journal:  Biochemistry       Date:  1978-04-04       Impact factor: 3.162

Review 6.  A genetic model to investigate drug-target interactions at the ribosomal decoding site.

Authors:  S N Hobbie; C Bruell; S Kalapala; S Akshay; S Schmidt; P Pfister; E C Böttger
Journal:  Biochimie       Date:  2006-04-27       Impact factor: 4.079

7.  Sequence and characterization of a novel chromosomal aminoglycoside phosphotransferase gene, aph (3')-IIb, in Pseudomonas aeruginosa.

Authors:  H Hächler; P Santanam; F H Kayser
Journal:  Antimicrob Agents Chemother       Date:  1996-05       Impact factor: 5.191

8.  Mutagenesis of 16S rRNA C1409-G1491 base-pair differentiates between 6'OH and 6'NH3+ aminoglycosides.

Authors:  P Pfister; S Hobbie; C Brüll; N Corti; A Vasella; E Westhof; E C Böttger
Journal:  J Mol Biol       Date:  2004-12-21       Impact factor: 5.469

9.  The frequency of translational misreading errors in E. coli is largely determined by tRNA competition.

Authors:  Emily B Kramer; Philip J Farabaugh
Journal:  RNA       Date:  2006-11-09       Impact factor: 4.942

10.  Genetic analysis of interactions with eukaryotic rRNA identify the mitoribosome as target in aminoglycoside ototoxicity.

Authors:  Sven N Hobbie; Subramanian Akshay; Sarath K Kalapala; Christian M Bruell; Dmitry Shcherbakov; Erik C Böttger
Journal:  Proc Natl Acad Sci U S A       Date:  2008-12-22       Impact factor: 11.205
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4.  Tobramycin Variants with Enhanced Ribosome-Targeting Activity.

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Review 5.  Advances in the development of new tuberculosis drugs and treatment regimens.

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Journal:  Nat Rev Drug Discov       Date:  2013-05       Impact factor: 84.694

6.  Detection and Quantification of Ribosome Inhibition by Aminoglycoside Antibiotics in Living Bacteria Using an Orthogonal Ribosome-Controlled Fluorescent Reporter.

Authors:  Shijie Huang; Xuechen Zhu; Charles E Melançon
Journal:  ACS Chem Biol       Date:  2015-11-04       Impact factor: 5.100

7.  N6', N6''', and O4' Modifications to Neomycin Affect Ribosomal Selectivity without Compromising Antibacterial Activity.

Authors:  Girish C Sati; Dimitri Shcherbakov; Sven N Hobbie; Andrea Vasella; Erik C Böttger; David Crich
Journal:  ACS Infect Dis       Date:  2017-04-06       Impact factor: 5.084

Review 8.  Antibiotics Resistance in Rhizobium: Type, Process, Mechanism and Benefit for Agriculture.

Authors:  Judith Naamala; Sanjay K Jaiswal; Felix D Dakora
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9.  Mutational activation of the AmgRS two-component system in aminoglycoside-resistant Pseudomonas aeruginosa.

Authors:  Calvin Ho-Fung Lau; Sebastien Fraud; Marcus Jones; Scott N Peterson; Keith Poole
Journal:  Antimicrob Agents Chemother       Date:  2013-03-04       Impact factor: 5.191

10.  Dual Targeting of Intracellular Pathogenic Bacteria with a Cleavable Conjugate of Kanamycin and an Antibacterial Cell-Penetrating Peptide.

Authors:  Anna Brezden; Mohamed F Mohamed; Manish Nepal; John S Harwood; Jerrin Kuriakose; Mohamed N Seleem; Jean Chmielewski
Journal:  J Am Chem Soc       Date:  2016-08-17       Impact factor: 15.419
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