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PXD047931

PXD047931 is an original dataset announced via ProteomeXchange.

Dataset Summary
TitleAnalysis of the mouse hepatic peroxisome proteome – identification of novel protein constituents using a quantitative SWATH-MS approach
DescriptionSeveral proteomics studies have been performed in the past in order to define the mammalian peroxisomal proteome. During the last decade, it has as well become evident, that a significant number of proteins is shared between several subcellular compartments and that specialized proteins subsets are constituents of membrane contact zones, which bridge two adjacent organelle to allow metabolite exchange. In this respect, a number of proteins, which have been considered as mere contaminants in previous studies, might be indeed proteins, which are to a minor extent indeed truly associated with peroxisomes. Ongoing technical improvements in mass spectrometry (MS) allow to identify and to quantify the enrichment of such less abundant proteins in individual fractions. Accordingly, this study reassessed the proteome of mouse liver peroxisomes by parallel isolation of peroxisomes from a mitochondria- and a microsome-enriched pre-fraction combining density gradient centrifugation with a SWATH-MS quantitative proteomics approach to unveil novel peroxisomal or peroxisome-associated proteins. In total, 1071 proteins from the MS-samples were identified in amounts, which allowed their quantification in order to assess their enrichment in either high density peroxisomal or low-density gradient fractions, containing the bulk of organelle material. Combining the data from isolations from the mitochondria- and microsome-enriched prefractions allowed to identify specific protein clusters characteristic for mitochondria, the ER and peroxisomes. Among the proteins, which were significantly enriched in the peroxisomal cluster, were several proteins, which were not previously associated with the organelles implying that they are novel peroxisomal candidates. In order to validate the organelle proteomics strategy, five of the candidates were selected for further colocalization studies. The peroxismal import of two candidates, HTATIP2 and PAFAH2, which contain potential peroxisome targeting sequences 1, could be confirmed by overexpression in HepG2 cells. Two other candidates, SAR1B and PDCD6, which are known from ER exit sites, did not directly colocalize with peroxisomes but were found to reside at ER sites which often surrounded peroxisomes. Hence, both proteins might concentrate at peroxisome-ER membrane contact sites, which might be co-purified with peroxisomes. Intriguingly, the last candidate, OCIA domain-containing protein 1, was previously described to decrease mitochondrial branching and network formation. In this work, we not only validate its secondary peroxisomal localization but also observed a reduction in peroxisome numbers in response OCIAD1 expression. Hence, OCIAD1 appears to be a novel protein, which has an impact on both mitochondrial and peroxisomal maintenance.
HostingRepositoryPRIDE
AnnounceDate2024-06-22
AnnouncementXMLSubmission_2024-06-22_08:31:34.825.xml
DigitalObjectIdentifier
ReviewLevelPeer-reviewed dataset
DatasetOriginOriginal dataset
RepositorySupportUnsupported dataset by repository
PrimarySubmitterVictor Costina
SpeciesList scientific name: Mus musculus (Mouse); NCBI TaxID: 10090;
ModificationListiodoacetamide derivatized residue
InstrumentTripleTOF 5600
Dataset History
RevisionDatetimeStatusChangeLog Entry
02023-12-19 02:26:06ID requested
12024-06-22 08:31:35announced
Publication List
Singin Ö, Astapenka A, Costina V, K, ü, hl S, Bonekamp N, Drews O, Islinger M, Analysis of the Mouse Hepatic Peroxisome Proteome-Identification of Novel Protein Constituents Using a Semi-Quantitative SWATH-MS Approach. Cells, 13(2):(2024) [pubmed]
10.3390/cells13020176;
Keyword List
submitter keyword: OCIAD1, organelle proteomics,peroxisomes, organelle interaction
Contact List
Oliver Drews
contact affiliationCenter for Medical Research, University of Linz, Austria
contact emailoliver.drews@jku.at
lab head
Victor Costina
contact affiliationInstitute for Clinical Chemistry, Medical Faculty Mannheim of the University of Heidelberg
contact emailVictor.Costina@medma.uni-heidelberg.de
dataset submitter
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