V. V. Karpenko scite author profile

Accumulating evidence suggests that, during translation, nascent chains can form specific interactions with ribosomal exit tunnel to regulate translation and promote initial folding events. The clinically important macrolide antibiotics bind within the exit tunnel and inhibit translation by preventing progression of the nascent chain and inducing peptidyl-tRNA drop-off. Here, we have synthesized amino acid- and peptide-containing macrolides, which are used to demonstrate that distinct amino acids and peptides can establish interaction with components of the ribosomal tunnel and enhance the ribosome-binding and inhibitory properties of the macrolide drugs, consistent with the concept that the exit tunnel is not simply a Teflon-like channel. Surprisingly, we find that macrolide antibiotics do not inhibit translation of all nascent chains similarly, but rather exhibit polypeptide-specific inhibitory effects, providing a change to our general mechanistic understanding of macrolide inhibition.

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New fluorescent macrolide derivatives for studying interactions of antibiotics and their analogs with the ribosomal exit tunnel

Tereshchenkov

Shishkina

Karpenko

et al. 2016

Biochemistry Moscow

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Novel fluorescent derivatives of macrolide antibiotics related to tylosin bearing rhodamine, fluorescein, Alexa Fluor 488, BODIPY FL, and nitrobenzoxadiazole (NBD) residues were synthesized. The formation of complexes of these compounds with 70S E. coli ribosomes was studied by measuring the fluorescence polarization depending on the ribosome amount at constant concentration of the fluorescent substance. With the synthesized fluorescent tylosin derivatives, the dissociation constants for ribosome complexes with several known antibiotics and macrolide analogs previously obtained were determined. It was found that the fluorescent tylosin derivatives containing BODIPY FL and NBD groups could be used to screen the binding of novel antibiotics to bacterial ribosomes in the macrolide-binding site.

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Ribosomal tunnel and translation regulation

Bøgdanov

Sumbatyan

Shishkina

et al. 2010

Biochemistry Moscow

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This review describes the results of recent studies of the ribosomal tunnel (RT), the major function of which is to allow the smooth passage of nascent polypeptides with different sequences from the peptidyl transferase center of the ribosome to the tunnel exit, where the folding of protein molecules begins. The features of structural organization of RT and their role in modulation and stabilization of the nascent chain conformation are discussed. Structural features of macrolide binding sites as well as application of macrolide antibiotics and their derivatives as tools to investigate ligand-tunnel wall interactions are also considered. Several examples of strong and specific interactions of regulatory polypeptides with nucleotide and amino acid residues of RT that lead to ribosome stalling and translational arrest are described in detail. The role of these events in regulation of expression of certain genes is discussed on the basis of recent high-resolution structural studies of nascent chains in the RT.

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V. V. Karpenko

Interplay between the Ribosomal Tunnel, Nascent Chain, and Macrolides Influences Drug Inhibition

New fluorescent macrolide derivatives for studying interactions of antibiotics and their analogs with the ribosomal exit tunnel

Ribosomal tunnel and translation regulation

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