Quantitative Proteomics and Differential Protein Abundance Analysis after Depletion of Putative mRNA Receptors in the ER Membrane of Human Cells Identifies Novel Aspects of mRNA Targeting to the ER

Quantitative Proteomics and Differential Protein Abundance Analysis after Depletion of Putative mRNA Receptors in the ER Membrane of Human Cells Identifies Novel Aspects of mRNA Targeting to the ER

In human cells, one-third of all polypeptides enter the secretory pathway at the endoplasmic reticulum (ER). The specificity and efficiency of this process are guaranteed by targeting of mRNAs and/or polypeptides to the ER membrane. Cytosolic SRP and its receptor in the ER membrane facilitate the co...

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Main Authors: Pratiti Bhadra, Stefan Schorr, Monika Lerner, Duy Nguyen, Johanna Dudek, Friedrich Förster, Volkhard Helms, Sven Lang, Richard Zimmermann
Format: Article
Language:English
Published: MDPI AG 2021-06-01
Series:Molecules
Subjects:
endoplasmic reticulum
mRNA targeting
protein targeting
protein import
membrane protein insertion
protein translocation
Online Access:https://www.mdpi.com/1420-3049/26/12/3591
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spelling doaj-7273cebf409649a384a12694dcbd97d52021-06-30T23:58:31ZengMDPI AGMolecules1420-30492021-06-01263591359110.3390/molecules26123591Quantitative Proteomics and Differential Protein Abundance Analysis after Depletion of Putative mRNA Receptors in the ER Membrane of Human Cells Identifies Novel Aspects of mRNA Targeting to the ERPratiti Bhadra0Stefan Schorr1Monika Lerner2Duy Nguyen3Johanna Dudek4Friedrich Förster5Volkhard Helms6Sven Lang7Richard Zimmermann8Center for Bioinformatics, Saarland Informatics Campus, Saarland University, 66041 Saarbrücken, GermanyMedical Biochemistry and Molecular Biology, Saarland University, 66421 Homburg, GermanyMedical Biochemistry and Molecular Biology, Saarland University, 66421 Homburg, GermanyCenter for Bioinformatics, Saarland Informatics Campus, Saarland University, 66041 Saarbrücken, GermanyMedical Biochemistry and Molecular Biology, Saarland University, 66421 Homburg, GermanyBijvoet Center for Biomolecular Research, Utrecht University, 3584 CH Utrecht, The NetherlandsCenter for Bioinformatics, Saarland Informatics Campus, Saarland University, 66041 Saarbrücken, GermanyMedical Biochemistry and Molecular Biology, Saarland University, 66421 Homburg, GermanyMedical Biochemistry and Molecular Biology, Saarland University, 66421 Homburg, GermanyIn human cells, one-third of all polypeptides enter the secretory pathway at the endoplasmic reticulum (ER). The specificity and efficiency of this process are guaranteed by targeting of mRNAs and/or polypeptides to the ER membrane. Cytosolic SRP and its receptor in the ER membrane facilitate the cotranslational targeting of most ribosome-nascent precursor polypeptide chain (RNC) complexes together with the respective mRNAs to the Sec61 complex in the ER membrane. Alternatively, fully synthesized precursor polypeptides are targeted to the ER membrane post-translationally by either the TRC, SND, or PEX19/3 pathway. Furthermore, there is targeting of mRNAs to the ER membrane, which does not involve SRP but involves mRNA- or RNC-binding proteins on the ER surface, such as RRBP1 or KTN1. Traditionally, the targeting reactions were studied in cell-free or cellular assays, which focus on a single precursor polypeptide and allow the conclusion of whether a certain precursor can use a certain pathway. Recently, cellular approaches such as proximity-based ribosome profiling or quantitative proteomics were employed to address the question of which precursors use certain pathways under physiological conditions. Here, we combined siRNA-mediated depletion of putative mRNA receptors in HeLa cells with label-free quantitative proteomics and differential protein abundance analysis to characterize RRBP1- or KTN1-involving precursors and to identify possible genetic interactions between the various targeting pathways. Furthermore, we discuss the possible implications on the so-called TIGER domains and critically discuss the pros and cons of this experimental approach.https://www.mdpi.com/1420-3049/26/12/3591endoplasmic reticulummRNA targetingprotein targetingprotein importmembrane protein insertionprotein translocation
collection DOAJ
language English
format Article
sources DOAJ
author Pratiti Bhadra
Stefan Schorr
Monika Lerner
Duy Nguyen
Johanna Dudek
Friedrich Förster
Volkhard Helms
Sven Lang
Richard Zimmermann
spellingShingle Pratiti Bhadra
Stefan Schorr
Monika Lerner
Duy Nguyen
Johanna Dudek
Friedrich Förster
Volkhard Helms
Sven Lang
Richard Zimmermann
Quantitative Proteomics and Differential Protein Abundance Analysis after Depletion of Putative mRNA Receptors in the ER Membrane of Human Cells Identifies Novel Aspects of mRNA Targeting to the ER
Molecules
endoplasmic reticulum
mRNA targeting
protein targeting
protein import
membrane protein insertion
protein translocation
author_facet Pratiti Bhadra
Stefan Schorr
Monika Lerner
Duy Nguyen
Johanna Dudek
Friedrich Förster
Volkhard Helms
Sven Lang
Richard Zimmermann
author_sort Pratiti Bhadra
title Quantitative Proteomics and Differential Protein Abundance Analysis after Depletion of Putative mRNA Receptors in the ER Membrane of Human Cells Identifies Novel Aspects of mRNA Targeting to the ER
title_short Quantitative Proteomics and Differential Protein Abundance Analysis after Depletion of Putative mRNA Receptors in the ER Membrane of Human Cells Identifies Novel Aspects of mRNA Targeting to the ER
title_full Quantitative Proteomics and Differential Protein Abundance Analysis after Depletion of Putative mRNA Receptors in the ER Membrane of Human Cells Identifies Novel Aspects of mRNA Targeting to the ER
title_fullStr Quantitative Proteomics and Differential Protein Abundance Analysis after Depletion of Putative mRNA Receptors in the ER Membrane of Human Cells Identifies Novel Aspects of mRNA Targeting to the ER
title_full_unstemmed Quantitative Proteomics and Differential Protein Abundance Analysis after Depletion of Putative mRNA Receptors in the ER Membrane of Human Cells Identifies Novel Aspects of mRNA Targeting to the ER
title_sort quantitative proteomics and differential protein abundance analysis after depletion of putative mrna receptors in the er membrane of human cells identifies novel aspects of mrna targeting to the er
publisher MDPI AG
series Molecules
issn 1420-3049
publishDate 2021-06-01
description In human cells, one-third of all polypeptides enter the secretory pathway at the endoplasmic reticulum (ER). The specificity and efficiency of this process are guaranteed by targeting of mRNAs and/or polypeptides to the ER membrane. Cytosolic SRP and its receptor in the ER membrane facilitate the cotranslational targeting of most ribosome-nascent precursor polypeptide chain (RNC) complexes together with the respective mRNAs to the Sec61 complex in the ER membrane. Alternatively, fully synthesized precursor polypeptides are targeted to the ER membrane post-translationally by either the TRC, SND, or PEX19/3 pathway. Furthermore, there is targeting of mRNAs to the ER membrane, which does not involve SRP but involves mRNA- or RNC-binding proteins on the ER surface, such as RRBP1 or KTN1. Traditionally, the targeting reactions were studied in cell-free or cellular assays, which focus on a single precursor polypeptide and allow the conclusion of whether a certain precursor can use a certain pathway. Recently, cellular approaches such as proximity-based ribosome profiling or quantitative proteomics were employed to address the question of which precursors use certain pathways under physiological conditions. Here, we combined siRNA-mediated depletion of putative mRNA receptors in HeLa cells with label-free quantitative proteomics and differential protein abundance analysis to characterize RRBP1- or KTN1-involving precursors and to identify possible genetic interactions between the various targeting pathways. Furthermore, we discuss the possible implications on the so-called TIGER domains and critically discuss the pros and cons of this experimental approach.
topic endoplasmic reticulum
mRNA targeting
protein targeting
protein import
membrane protein insertion
protein translocation
url https://www.mdpi.com/1420-3049/26/12/3591
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