A Vital Sugar Code for Ricin Toxicity

Overview

Journal Cell Res

Specialty Cell Biology

Date 2017 Sep 20

PMID 28925387

Citations 14

Authors

Jasmin Taubenschmid

Johannes Stadlmann

Markus Jost

Tove Irene Klokk

Cory D Rillahan

Andreas Leibbrandt

Karl Mechtler

James C Paulson

Julian Jude

Johannes Zuber

Kirsten Sandvig

Ulrich Elling

Thorsten Marquardt

Christian Thiel

Christian Koerner

Josef M Penninger

Affiliations

Soon will be listed here.

Abstract

Ricin is one of the most feared bioweapons in the world due to its extreme toxicity and easy access. Since no antidote exists, it is of paramount importance to identify the pathways underlying ricin toxicity. Here, we demonstrate that the Golgi GDP-fucose transporter Slc35c1 and fucosyltransferase Fut9 are key regulators of ricin toxicity. Genetic and pharmacological inhibition of fucosylation renders diverse cell types resistant to ricin via deregulated intracellular trafficking. Importantly, cells from a patient with SLC35C1 deficiency are also resistant to ricin. Mechanistically, we confirm that reduced fucosylation leads to increased sialylation of Lewis X structures and thus masking of ricin-binding sites. Inactivation of the sialyltransferase responsible for modifications of Lewis X (St3Gal4) increases the sensitivity of cells to ricin, whereas its overexpression renders cells more resistant to the toxin. Thus, we have provided unprecedented insights into an evolutionary conserved modular sugar code that can be manipulated to control ricin toxicity.

Citing Articles

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