A polypeptide model for toxic aberrant proteins induced by aminoglycoside antibiotics

Abstract: 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), sugges… Show more

“…For C-terminal extended readthrough proteins that are released, there may be various effects on the protein and cell. Depending on the specific gene, length of the tail extension, and amino acid content of the extension, the resulting protein may be degraded 27 , may acquire cellular toxicity 52 , or may become prone to aggregation 53 . One study proposed a model in which stop codon readthrough in the AMD1 gene causes ribosome stalling in the downstream 3' UTR, eventually leading to the formation of a ribosomal queue that extends into the coding sequence and inhibits translation of the affected mRNA 34 .…”

Noncoding translation mitigation

“…For C-terminal extended readthrough proteins that are released, there may be various effects on the protein and cell. Depending on the specific gene, length of the tail extension, and amino acid content of the extension, the resulting protein may be degraded 27 , may acquire cellular toxicity 52 , or may become prone to aggregation 53 . One study proposed a model in which stop codon readthrough in the AMD1 gene causes ribosome stalling in the downstream 3' UTR, eventually leading to the formation of a ribosomal queue that extends into the coding sequence and inhibits translation of the affected mRNA 34 .…”

Noncoding translation mitigation