Publication:
Centriolar satellites assemble via a hierarchical pathway driven by PCM1 multimerization

dc.contributor.PhDBegar, Efe
dc.contributor.PhDArslanhan, Melis Dilara
dc.contributor.PhDSeyrek, Ece
dc.contributor.departmentSchool of Medicine
dc.contributor.departmentDepartment of Molecular Biology and Genetics
dc.contributor.facultymemberYes
dc.contributor.kuauthorKaralar, Elif Nur Fırat
dc.contributor.kuauthorSeyrek, Ece
dc.contributor.kuauthorArslanhan, Melis Dilara
dc.contributor.kuauthorOdabaşı, Ezgi
dc.contributor.kuauthorBegar, Efe
dc.contributor.kuauthorKaraoğlu, Selin
dc.contributor.masterKaraoğlu, Selin
dc.contributor.schoolcollegeinstituteSCHOOL OF MEDICINE
dc.contributor.schoolcollegeinstituteCollege of Sciences
dc.date.accessioned2026-06-17T08:07:13Z
dc.date.available2026-06-17
dc.date.issued2026
dc.description.abstractCentriolar satellites (CS) are ubiquitous membraneless organelles with diverse functions and links to developmental and neuronal diseases. However, the molecular principles governing their assembly and regulation remain poorly understood. To address this, we developed cellular and in vitro biogenesis assays that enable spatiotemporal quantification of CS granule properties during assembly, remodeling, and maintenance. Using these tools, we show that CS assemble via a hierarchical pathway initiated by pericentriolar material-1 (PCM1) scaffold formation and followed by client recruitment. PCM1 intrinsically assembles into granules through multimerization, a process modulated by the cytoskeleton. High-resolution imaging revealed that PCM1 and its clients occupy distinct subdomains with different compositions and dynamics. Perturbing PCM1 multimerization impaired ciliary signaling and mitotic progression, underscoring its functional importance. Together, these findings define the molecular basis of CS biogenesis, establish tools to probe CS regulation, and provide a framework for understanding how CS deregulation contributes to disease. More broadly, these may extend to other membraneless organelles and help explain their specificity and plasticity.
dc.description.fulltextYes
dc.description.harvestedfromManual
dc.description.indexedbyWOS
dc.description.indexedbyPubMed
dc.description.openaccessGreen OA
dc.description.peerreviewstatusPeer-Reviewed
dc.description.publisherscopeInternational
dc.description.readpublishN/A
dc.description.sponsoredbyTubitakEuEU - TÜBİTAK
dc.description.sponsorshipWe thank members of CytoLab for feedback on this work; Dila Gulensoy for cloning GFP-tagged PCM1-NS, PCM1-N, and PCM1-C constructs; Dr. Jovana Deretic for assistance with TIRF experiments; and Serra Do & gbreve;anata for generating the MS coverage map. We acknowledge the Koc University and Istanbul University Animal Facilities.
dc.description.studentonlypublicationNo
dc.description.studentpublicationYes
dc.description.versionAuthor’s Final Manuscript
dc.identifier.WoSQuartileQ2
dc.identifier.doi10.1083/jcb.202509238
dc.identifier.eissn1540-8140
dc.identifier.embargoNo
dc.identifier.filenameinventorynoIR07003
dc.identifier.grantno124Z240
dc.identifier.grantno101078097
dc.identifier.grantnoYEP-0057
dc.identifier.issn0021-9525
dc.identifier.issue8
dc.identifier.pubmed42274391
dc.identifier.urihttps://doi.org/10.1083/jcb.202509238
dc.identifier.urihttps://hdl.handle.net/20.500.14288/32662
dc.identifier.volume225
dc.identifier.wos001789846500001
dc.keywordsBiochemistry
dc.keywordsCytoskeleton
dc.keywordsDisease
dc.keywordsOrganelles
dc.language.isoeng
dc.publisherRockefeller University Press
dc.relation.affiliationKoç University
dc.relation.collectionKoç University Institutional Repository
dc.relation.ispartofJournal of Cell Biology
dc.relation.openaccessYes
dc.rightsCC BY (Attribution)
dc.rights.urihttps://creativecommons.org/licenses/by/4.0/
dc.subjectCell biology
dc.titleCentriolar satellites assemble via a hierarchical pathway driven by PCM1 multimerization
dc.typeJournal Article
dspace.entity.typePublication
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