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A polypeptide model for toxic aberrant proteins induced by aminoglycoside antibiotics

Aminoglycoside antibiotics interfere with the selection of cognate tRNAs during translation, resulting in the synthesis of aberrant proteins that are the ultimate cause of cell death. However, the toxic potential of aberrant proteins and how they avoid degradation by the cell’s protein quality contr...

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Autores principales: Tawde, Mangala, Bior, Abdelaziz, Feiss, Michael, Teng, Feiyue, Freimuth, Paul
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9053816/
https://www.ncbi.nlm.nih.gov/pubmed/35486612
http://dx.doi.org/10.1371/journal.pone.0258794
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author Tawde, Mangala
Bior, Abdelaziz
Feiss, Michael
Teng, Feiyue
Freimuth, Paul
author_facet Tawde, Mangala
Bior, Abdelaziz
Feiss, Michael
Teng, Feiyue
Freimuth, Paul
author_sort Tawde, Mangala
collection PubMed
description Aminoglycoside antibiotics interfere with the selection of cognate tRNAs during translation, resulting in the synthesis of aberrant proteins that are the ultimate cause of cell death. However, the toxic potential of aberrant proteins and how they avoid degradation by the cell’s protein quality control (QC) machinery are not understood. Here we report that levels of the heat shock (HS) transcription factor σ32 increased sharply following exposure of Escherichia coli to the aminoglycoside kanamycin (Kan), suggesting that at least some of the aberrant proteins synthesized in these cells were recognized as substrates by DnaK, a molecular chaperone that regulates the HS response, the major protein QC pathway in bacteria. To further investigate aberrant protein toxic potential and interaction with cell QC factors, we studied an acutely toxic 48-residue polypeptide (ARF48) that is encoded by an alternate reading frame in a plant cDNA. As occurred in cells exposed to Kan, σ32 levels were strongly elevated following ARF48 expression, suggesting that ARF48 was recognized as a substrate by DnaK. Paradoxically, an internal 10-residue region that was tightly bound by DnaK in vitro also was required for the ARF48 toxic effect. Despite the increased levels of σ32, levels of several HS proteins were unchanged following ARF48 expression, suggesting that the HS response had been aborted. Nucleoids were condensed and cell permeability increased rapidly following ARF48 expression, together suggesting that ARF48 disrupts DNA-membrane interactions that could be required for efficient gene expression. Our results are consistent with earlier studies showing that aberrant proteins induced by aminoglycoside antibiotics disrupt cell membrane integrity. Insights into the mechanism for this effect could be gained by further study of the ARF48 model system.
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spelling pubmed-90538162022-04-30 A polypeptide model for toxic aberrant proteins induced by aminoglycoside antibiotics Tawde, Mangala Bior, Abdelaziz Feiss, Michael Teng, Feiyue Freimuth, Paul PLoS One Research Article Aminoglycoside antibiotics interfere with the selection of cognate tRNAs during translation, resulting in the synthesis of aberrant proteins that are the ultimate cause of cell death. However, the toxic potential of aberrant proteins and how they avoid degradation by the cell’s protein quality control (QC) machinery are not understood. Here we report that levels of the heat shock (HS) transcription factor σ32 increased sharply following exposure of Escherichia coli to the aminoglycoside kanamycin (Kan), suggesting that at least some of the aberrant proteins synthesized in these cells were recognized as substrates by DnaK, a molecular chaperone that regulates the HS response, the major protein QC pathway in bacteria. To further investigate aberrant protein toxic potential and interaction with cell QC factors, we studied an acutely toxic 48-residue polypeptide (ARF48) that is encoded by an alternate reading frame in a plant cDNA. As occurred in cells exposed to Kan, σ32 levels were strongly elevated following ARF48 expression, suggesting that ARF48 was recognized as a substrate by DnaK. Paradoxically, an internal 10-residue region that was tightly bound by DnaK in vitro also was required for the ARF48 toxic effect. Despite the increased levels of σ32, levels of several HS proteins were unchanged following ARF48 expression, suggesting that the HS response had been aborted. Nucleoids were condensed and cell permeability increased rapidly following ARF48 expression, together suggesting that ARF48 disrupts DNA-membrane interactions that could be required for efficient gene expression. Our results are consistent with earlier studies showing that aberrant proteins induced by aminoglycoside antibiotics disrupt cell membrane integrity. Insights into the mechanism for this effect could be gained by further study of the ARF48 model system. Public Library of Science 2022-04-29 /pmc/articles/PMC9053816/ /pubmed/35486612 http://dx.doi.org/10.1371/journal.pone.0258794 Text en © 2022 Tawde et al https://creativecommons.org/licenses/by/4.0/This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Tawde, Mangala
Bior, Abdelaziz
Feiss, Michael
Teng, Feiyue
Freimuth, Paul
A polypeptide model for toxic aberrant proteins induced by aminoglycoside antibiotics
title A polypeptide model for toxic aberrant proteins induced by aminoglycoside antibiotics
title_full A polypeptide model for toxic aberrant proteins induced by aminoglycoside antibiotics
title_fullStr A polypeptide model for toxic aberrant proteins induced by aminoglycoside antibiotics
title_full_unstemmed A polypeptide model for toxic aberrant proteins induced by aminoglycoside antibiotics
title_short A polypeptide model for toxic aberrant proteins induced by aminoglycoside antibiotics
title_sort polypeptide model for toxic aberrant proteins induced by aminoglycoside antibiotics
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9053816/
https://www.ncbi.nlm.nih.gov/pubmed/35486612
http://dx.doi.org/10.1371/journal.pone.0258794
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