Literature DB >> 25616894

Decatransin, a new natural product inhibiting protein translocation at the Sec61/SecYEG translocon.

Tina Junne1, Joanne Wong2, Christian Studer2, Thomas Aust2, Benedikt W Bauer3, Martin Beibel2, Bhupinder Bhullar2, Robert Bruccoleri4, Jürg Eichenberger2, David Estoppey2, Nicole Hartmann2, Britta Knapp2, Philipp Krastel2, Nicolas Melin2, Edward J Oakeley2, Lukas Oberer2, Ralph Riedl2, Guglielmo Roma2, Sven Schuierer2, Frank Petersen2, John A Tallarico5, Tom A Rapoport3, Martin Spiess6, Dominic Hoepfner7.   

Abstract

A new cyclic decadepsipeptide was isolated from Chaetosphaeria tulasneorum with potent bioactivity on mammalian and yeast cells. Chemogenomic profiling in S. cerevisiae indicated that the Sec61 translocon complex, the machinery for protein translocation and membrane insertion at the endoplasmic reticulum, is the target. The profiles were similar to those of cyclic heptadepsipeptides of a distinct chemotype (including HUN-7293 and cotransin) that had previously been shown to inhibit cotranslational translocation at the mammalian Sec61 translocon. Unbiased, genome-wide mutagenesis followed by full-genome sequencing in both fungal and mammalian cells identified dominant mutations in Sec61p (yeast) or Sec61α1 (mammals) that conferred resistance. Most, but not all, of these mutations affected inhibition by both chemotypes, despite an absence of structural similarity. Biochemical analysis confirmed inhibition of protein translocation into the endoplasmic reticulum of both co- and post-translationally translocated substrates by both chemotypes, demonstrating a mechanism independent of a translating ribosome. Most interestingly, both chemotypes were found to also inhibit SecYEG, the bacterial Sec61 translocon homolog. We suggest 'decatransin' as the name for this new decadepsipeptide translocation inhibitor.
© 2015. Published by The Company of Biologists Ltd.

Entities:  

Keywords:  Cotransin; Endoplasmic reticulum; Haploinsufficiency profiling; SEC61; Target identification; Translocation inhibition

Mesh:

Substances:

Year:  2015        PMID: 25616894      PMCID: PMC4359925          DOI: 10.1242/jcs.165746

Source DB:  PubMed          Journal:  J Cell Sci        ISSN: 0021-9533            Impact factor:   5.285


  46 in total

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