Functional dissection of the retrograde Shiga toxin trafficking inhibitor Retro-2

被引:0
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作者
Alison Forrester
Stefan J. Rathjen
Maria Daniela Garcia-Castillo
Collin Bachert
Audrey Couhert
Livia Tepshi
Sylvain Pichard
Jennifer Martinez
Mathilde Munier
Raphael Sierocki
Henri-François Renard
César Augusto Valades-Cruz
Florent Dingli
Damarys Loew
Christophe Lamaze
Jean-Christophe Cintrat
Adam D. Linstedt
Daniel Gillet
Julien Barbier
Ludger Johannes
机构
[1] Institut Curie,Department of Biological Sciences
[2] PSL Research University,CEA, INRAE, Medicaments et Technologies pour la Sante (MTS), SCBM
[3] Cellular and Chemical Biology unit,CEA, INRAE, Medicaments et Technologies pour la Sante (MTS), SIMoS
[4] U1143 INSERM,undefined
[5] UMR3666 CNRS,undefined
[6] Endocytic Trafficking and Intracellular Delivery team,undefined
[7] Carnegie Mellon University,undefined
[8] Université Paris-Saclay,undefined
[9] Université Paris-Saclay,undefined
[10] Institut Curie,undefined
[11] Centre de Recherche,undefined
[12] PSL Research University,undefined
[13] Laboratoire de Spectrométrie de Masse Protéomique,undefined
[14] Institut Curie,undefined
[15] PSL Research University,undefined
[16] Cellular and Chemical Biology Unit,undefined
[17] U1143 INSERM,undefined
[18] UMR3666 CNRS,undefined
[19] Membrane Dynamics and Mechanics of Intracellular Signaling team,undefined
来源
Nature Chemical Biology | 2020年 / 16卷
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摘要
The retrograde transport inhibitor Retro-2 has a protective effect on cells and in mice against Shiga-like toxins and ricin. Retro-2 causes toxin accumulation in early endosomes and relocalization of the Golgi SNARE protein syntaxin-5 to the endoplasmic reticulum. The molecular mechanisms by which this is achieved remain unknown. Here, we show that Retro-2 targets the endoplasmic reticulum exit site component Sec16A, affecting anterograde transport of syntaxin-5 from the endoplasmic reticulum to the Golgi. The formation of canonical SNARE complexes involving syntaxin-5 is not affected in Retro-2-treated cells. By contrast, the interaction of syntaxin-5 with a newly discovered binding partner, the retrograde trafficking chaperone GPP130, is abolished, and we show that GPP130 must indeed bind to syntaxin-5 to drive Shiga toxin transport from the endosomes to the Golgi. We therefore identify Sec16A as a druggable target and provide evidence for a non-SNARE function for syntaxin-5 in interaction with GPP130.
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页码:327 / 336
页数:9
相关论文
共 34 条
  • [1] Functional dissection of the retrograde Shiga toxin trafficking inhibitor Retro-2
    Forrester, Alison
    Rathjen, Stefan J.
    Daniela Garcia-Castillo, Maria
    Bachert, Collin
    Couhert, Audrey
    Tepshi, Livia
    Pichard, Sylvain
    Martinez, Jennifer
    Munier, Mathilde
    Sierocki, Raphael
    Renard, Henri-Francois
    Augusto Valades-Cruz, Cesar
    Dingli, Florent
    Loew, Damarys
    Lamaze, Christophe
    Cintrat, Jean-Christophe
    Linstedt, Adam D.
    Gillet, Daniel
    Barbier, Julien
    Johannes, Ludger
    [J]. NATURE CHEMICAL BIOLOGY, 2020, 16 (03) : 327 - +
  • [2] Development of an Arginine Anchored Nanoglobule with Retrograde Trafficking Inhibitor (Retro-2) for the Treatment of an Enterohemorrhagic Escherichia coil Outbreak
    Gandhi, Tasneem
    Patki, Manali
    Kong, Jing
    Koya, Jagadish
    Yoganathan, Sabesan
    Reznik, Sandra
    Patel, Ketankumar
    [J]. MOLECULAR PHARMACEUTICS, 2019, 16 (10) : 4405 - 4415
  • [3] N-Methyldihydroquinazolinone Derivatives of Retro-2 with Enhanced Efficacy against Shiga Toxin
    Noel, Romain
    Gupta, Neetu
    Pons, Valerie
    Goudet, Amelie
    Garcia-Castillo, Maria Daniela
    Michau, Aurelien
    Martinez, Jennifer
    Buisson, David-Alexandre
    Johannes, Ludger
    Gillet, Daniel
    Barbier, Julien
    Cintrat, Jean-Christophe
    [J]. JOURNAL OF MEDICINAL CHEMISTRY, 2013, 56 (08) : 3404 - 3413
  • [4] Small Trafficking Inhibitor Retro-2 Disrupts the Microtubule-Dependent Trafficking of Autophagic Vacuoles
    Nicolas, Valerie
    Lievin-Le Moal, Vanessa
    [J]. FRONTIERS IN CELL AND DEVELOPMENTAL BIOLOGY, 2020, 8
  • [5] Annexin A1 and A2: Roles in Retrograde Trafficking of Shiga Toxin
    Tcatchoff, Lionel
    Andersson, Sofia
    Utskarpen, Audrun
    Klokk, Tove Irene
    Skanland, Sigrid S.
    Pust, Sascha
    Gerke, Volker
    Sandvig, Kirsten
    [J]. PLOS ONE, 2012, 7 (07):
  • [6] A Conserved Structural Motif Mediates Retrograde Trafficking of Shiga Toxin Types 1 and 2
    Selyunin, Andrey S.
    Mukhopadhyay, Somshuvra
    [J]. TRAFFIC, 2015, 16 (12) : 1270 - 1287
  • [7] Tamoxifen blocks retrograde trafficking of Shiga toxin 1 and 2 and protects against lethal toxicosis
    Selyunin, Andrey S.
    Hutchens, Steven
    McHardy, Stanton F.
    Mukhopadhyay, Somshuvra
    [J]. LIFE SCIENCE ALLIANCE, 2019, 2 (03)
  • [8] A common structural motif mediates retrograde trafficking of major Shiga toxin types
    Selyunin, A. S.
    Mukhopadhyay, S.
    [J]. MOLECULAR BIOLOGY OF THE CELL, 2015, 26
  • [9] Retrograde Shiga Toxin Trafficking Is Regulated by ARHGAP21 and Cdc42
    Hehnly, Heidi
    Longhini, Katrina Marie
    Chen, Ji-Long
    Stamnes, Mark
    [J]. MOLECULAR BIOLOGY OF THE CELL, 2009, 20 (20) : 4303 - 4312
  • [10] Structurally optimized analogs of the retrograde trafficking inhibitor Retro-2cycl limit Leishmania infections
    Craig, Evan
    Huyghues-Despointes, Charles-Eugene
    Yu, Chun
    Handy, Emma L.
    Sello, Jason K.
    Kima, Peter E.
    [J]. PLOS NEGLECTED TROPICAL DISEASES, 2017, 11 (05):
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