Literature DB >> 22902621

A novel approach to recovery of function of mutant proteins by slowing down translation.

Anatoli B Meriin1, Martin Mense, Jeff D Colbert, Feng Liang, Hermann Bihler, Nava Zaarur, Kenneth L Rock, Michael Y Sherman.   

Abstract

Protein homeostasis depends on a balance of translation, folding, and degradation. Here, we demonstrate that mild inhibition of translation results in a dramatic and disproportional reduction in production of misfolded polypeptides in mammalian cells, suggesting an improved folding of newly synthesized proteins. Indeed, inhibition of translation elongation, which slightly attenuated levels of a copepod GFP mutant protein, significantly enhanced its function. In contrast, inhibition of translation initiation had minimal effects on copepod GFP folding. On the other hand, mild suppression of either translation elongation or initiation corrected folding defects of the disease-associated cystic fibrosis transmembrane conductance regulator mutant F508del. We propose that modulation of translation can be used as a novel approach to improve overall proteostasis in mammalian cells, as well as functions of disease-associated mutant proteins with folding deficiencies.

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Year:  2012        PMID: 22902621      PMCID: PMC3464534          DOI: 10.1074/jbc.M112.397307

Source DB:  PubMed          Journal:  J Biol Chem        ISSN: 0021-9258            Impact factor:   5.157


  28 in total

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4.  Most F508del-CFTR is targeted to degradation at an early folding checkpoint and independently of calnexin.

Authors:  Carlos M Farinha; Margarida D Amaral
Journal:  Mol Cell Biol       Date:  2005-06       Impact factor: 4.272

5.  A rapid, reversible, and tunable method to regulate protein function in living cells using synthetic small molecules.

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Review 6.  Ribosome-tethered molecular chaperones: the first line of defense against protein misfolding?

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9.  Aggresomes: a cellular response to misfolded proteins.

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10.  Dynamic association of proteasomal machinery with the centrosome.

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  16 in total

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2.  Hsp33 controls elongation factor-Tu stability and allows Escherichia coli growth in the absence of the major DnaK and trigger factor chaperones.

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3.  HDAC inhibitors rescue multiple disease-causing CFTR variants.

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4.  Translational suppression via IFG-1/eIF4G inhibits stress-induced RNA alternative splicing in Caenorhabditis elegans.

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5.  Dynamic changes in ribosome-associated proteome and phosphoproteome during deoxynivalenol-induced translation inhibition and ribotoxic stress.

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6.  Translation inhibition corrects aberrant localization of mutant alanine-glyoxylate aminotransferase: possible therapeutic approach for hyperoxaluria.

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7.  Correcting the F508del-CFTR variant by modulating eukaryotic translation initiation factor 3-mediated translation initiation.

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8.  Slowing ribosome velocity restores folding and function of mutant CFTR.

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Review 10.  Hijacked then lost in translation: the plight of the recombinant host cell in membrane protein structural biology projects.

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