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An ER-directed transcriptional response to unfolded protein stress in the absence of conserved sensor-transducer proteins in Giardia lamblia


Spycher, Cornelia; Herman, Emily K; Morf, Laura; Qi, Weihong; Rehrauer, Hubert; Aquino Fournier, Catharine; Dacks, Joel B; Hehl, Adrian B (2013). An ER-directed transcriptional response to unfolded protein stress in the absence of conserved sensor-transducer proteins in Giardia lamblia. Molecular Microbiology, 88(4):754-771.

Abstract

The protozoan Giardia lamblia has a minimized organelle repertoire, and most strikingly lacks a classical stacked Golgi apparatus. Nevertheless, Giardia trophozoites constitutively secrete variant surface proteins, and dramatically increase the volume of protein secretion during differentiation to cysts. Eukaryotic cells have evolved an elaborate system for quality control (QC) of protein folding and capacity in the endoplasmic reticulum (ER). Upon ER-overload, an unfolded protein response (UPR) is triggered on transcriptional/translational level aiming at alleviating ER stress. In Giardia, a minimized secretory machinery and absence of glycan-dependent QC suggests that a genetically conserved UPR (or functional equivalent) to cope with insults to the secretory system has been eliminated. We tested this hypothesis of UPR elimination by profiling the transcriptional response during induced ER-folding stress. We show that on the contrary, ER-folding stress triggers a stressor-specific, ER-directed response with upregulation of only ~ 30 genes, with different kinetics and scope compared with the UPR of other eukaryotes. Computational genomics revealed conserved cis-acting motifs in upstream regions of responder genes capable of stressor-specific gene regulation in transfected cells. Interestingly, the sensors/transducers of folding stress, well conserved in model eukaryotes, are absent in Giardia suggesting the presence of a novel version of this essential eukaryotic function.

Abstract

The protozoan Giardia lamblia has a minimized organelle repertoire, and most strikingly lacks a classical stacked Golgi apparatus. Nevertheless, Giardia trophozoites constitutively secrete variant surface proteins, and dramatically increase the volume of protein secretion during differentiation to cysts. Eukaryotic cells have evolved an elaborate system for quality control (QC) of protein folding and capacity in the endoplasmic reticulum (ER). Upon ER-overload, an unfolded protein response (UPR) is triggered on transcriptional/translational level aiming at alleviating ER stress. In Giardia, a minimized secretory machinery and absence of glycan-dependent QC suggests that a genetically conserved UPR (or functional equivalent) to cope with insults to the secretory system has been eliminated. We tested this hypothesis of UPR elimination by profiling the transcriptional response during induced ER-folding stress. We show that on the contrary, ER-folding stress triggers a stressor-specific, ER-directed response with upregulation of only ~ 30 genes, with different kinetics and scope compared with the UPR of other eukaryotes. Computational genomics revealed conserved cis-acting motifs in upstream regions of responder genes capable of stressor-specific gene regulation in transfected cells. Interestingly, the sensors/transducers of folding stress, well conserved in model eukaryotes, are absent in Giardia suggesting the presence of a novel version of this essential eukaryotic function.

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6 citations in Web of Science®
7 citations in Scopus®
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Additional indexing

Item Type:Journal Article, refereed, original work
Communities & Collections:04 Faculty of Medicine > Functional Genomics Center Zurich
05 Vetsuisse Faculty > Institute of Parasitology
04 Faculty of Medicine > Institute of Parasitology
Dewey Decimal Classification:570 Life sciences; biology
600 Technology
610 Medicine & health
Language:English
Date:2013
Deposited On:10 Feb 2014 15:39
Last Modified:10 Nov 2016 14:13
Publisher:Wiley-Blackwell
ISSN:0950-382X
Free access at:Publisher DOI. An embargo period may apply.
Publisher DOI:https://doi.org/10.1111/mmi.12218
PubMed ID:23617761

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