Multi-Omic Analysis of CIC's Functional Networks Reveals Novel Interaction Partners and a Potential Role in Mitotic Fidelity

encodes a transcriptional repressor and MAPK signalling effector that is inactivated by loss-of-function mutations in several cancer types, consistent with a role as a tumour suppressor. Here, we used bioinformatic, genomic, and proteomic approaches to investigate CIC's interaction networks. We...

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Veröffentlicht in:	Cancers 2023-05, Vol.15 (10), p.2805
Hauptverfasser:	Takemon, Yuka, LeBlanc, Véronique G, Song, Jungeun, Chan, Susanna Y, Lee, Stephen Dongsoo, Trinh, Diane L, Ahmad, Shiekh Tanveer, Brothers, William R, Corbett, Richard D, Gagliardi, Alessia, Moradian, Annie, Cairncross, J Gregory, Yip, Stephen, Aparicio, Samuel A J R, Chan, Jennifer A, Hughes, Christopher S, Morin, Gregg B, Gorski, Sharon M, Chittaranjan, Suganthi, Marra, Marco A
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Sprache:	eng
Schlagworte:	5' Untranslated Regions Brain cancer Brain tumors Cancer Cell culture Cell cycle Cell division Cells CRISPR DNA repair Gene regulation Genes Genomes Genomics Kinases MAP kinase Pleiotropy Proteins Proteomics RNA processing Sarcoma Signal transduction Software Stomach cancer SWI/SNF complex Tumor suppressor genes
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container_title	Cancers
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creator	Takemon, Yuka LeBlanc, Véronique G Song, Jungeun Chan, Susanna Y Lee, Stephen Dongsoo Trinh, Diane L Ahmad, Shiekh Tanveer Brothers, William R Corbett, Richard D Gagliardi, Alessia Moradian, Annie Cairncross, J Gregory Yip, Stephen Aparicio, Samuel A J R Chan, Jennifer A Hughes, Christopher S Morin, Gregg B Gorski, Sharon M Chittaranjan, Suganthi Marra, Marco A
description	encodes a transcriptional repressor and MAPK signalling effector that is inactivated by loss-of-function mutations in several cancer types, consistent with a role as a tumour suppressor. Here, we used bioinformatic, genomic, and proteomic approaches to investigate CIC's interaction networks. We observed both previously identified and novel candidate interactions between CIC and SWI/SNF complex members, as well as novel interactions between CIC and cell cycle regulators and RNA processing factors. We found that CIC loss is associated with an increased frequency of mitotic defects in human cell lines and an in vivo mouse model and with dysregulated expression of mitotic regulators. We also observed aberrant splicing in CIC-deficient cell lines, predominantly at 3' and 5' untranslated regions of genes, including genes involved in MAPK signalling, DNA repair, and cell cycle regulation. Our study thus characterises the complexity of CIC's functional network and describes the effect of its loss on cell cycle regulation, mitotic integrity, and transcriptional splicing, thereby expanding our understanding of CIC's potential roles in cancer. In addition, our work exemplifies how multi-omic, network-based analyses can be used to uncover novel insights into the interconnected functions of pleiotropic genes/proteins across cellular contexts.
doi_str_mv	10.3390/cancers15102805
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Here, we used bioinformatic, genomic, and proteomic approaches to investigate CIC's interaction networks. We observed both previously identified and novel candidate interactions between CIC and SWI/SNF complex members, as well as novel interactions between CIC and cell cycle regulators and RNA processing factors. We found that CIC loss is associated with an increased frequency of mitotic defects in human cell lines and an in vivo mouse model and with dysregulated expression of mitotic regulators. We also observed aberrant splicing in CIC-deficient cell lines, predominantly at 3' and 5' untranslated regions of genes, including genes involved in MAPK signalling, DNA repair, and cell cycle regulation. Our study thus characterises the complexity of CIC's functional network and describes the effect of its loss on cell cycle regulation, mitotic integrity, and transcriptional splicing, thereby expanding our understanding of CIC's potential roles in cancer. In addition, our work exemplifies how multi-omic, network-based analyses can be used to uncover novel insights into the interconnected functions of pleiotropic genes/proteins across cellular contexts.</description><subject>5' Untranslated Regions</subject><subject>Brain cancer</subject><subject>Brain tumors</subject><subject>Cancer</subject><subject>Cell culture</subject><subject>Cell cycle</subject><subject>Cell division</subject><subject>Cells</subject><subject>CRISPR</subject><subject>DNA repair</subject><subject>Gene regulation</subject><subject>Genes</subject><subject>Genomes</subject><subject>Genomics</subject><subject>Kinases</subject><subject>MAP kinase</subject><subject>Pleiotropy</subject><subject>Proteins</subject><subject>Proteomics</subject><subject>RNA processing</subject><subject>Sarcoma</subject><subject>Signal transduction</subject><subject>Software</subject><subject>Stomach cancer</subject><subject>SWI/SNF complex</subject><subject>Tumor suppressor 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subjects	5' Untranslated Regions Brain cancer Brain tumors Cancer Cell culture Cell cycle Cell division Cells CRISPR DNA repair Gene regulation Genes Genomes Genomics Kinases MAP kinase Pleiotropy Proteins Proteomics RNA processing Sarcoma Signal transduction Software Stomach cancer SWI/SNF complex Tumor suppressor genes
title	Multi-Omic Analysis of CIC's Functional Networks Reveals Novel Interaction Partners and a Potential Role in Mitotic Fidelity
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