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2. MYCN-induced nucleolar stress drives an early senescence-like transcriptional program in hTERT-immortalized RPE cells

Author

Sofia Zanotti, Suzanne Vanhauwaert, Christophe Van Neste, Volodimir Olexiouk, Jolien Van Laere, Marlies Verschuuren, Joni Van der Meulen, Liselot M. Mus, Kaat Durinck, Laurentijn Tilleman, Dieter Deforce, Filip Van Nieuwerburgh, Michael D. Hogarty, Bieke Decaesteker, Winnok H. De Vos, and Frank Speleman

Subjects
Medicine, Science
Abstract

Abstract MYCN is an oncogenic driver in neural crest-derived neuroblastoma and medulloblastoma. To better understand the early effects of MYCN activation in a neural-crest lineage context, we profiled the transcriptome of immortalized human retina pigment epithelial cells with inducible MYCN activation. Gene signatures associated with elevated MYC/MYCN activity were induced after 24 h of MYCN activation, which attenuated but sustained at later time points. Unexpectedly, MYCN activation was accompanied by reduced cell growth. Gene set enrichment analysis revealed a senescence-like signature with strong induction of p53 and p21 but in the absence of canonical hallmarks of senescence such as β-galactosidase positivity, suggesting incomplete cell fate commitment. When scrutinizing the putative drivers of this growth attenuation, differential gene expression analysis identified several regulators of nucleolar stress. This process was also reflected by phenotypic correlates such as cytoplasmic granule accrual and nucleolar coalescence. Hence, we propose that the induction of MYCN congests the translational machinery, causing nucleolar stress and driving cells into a transient pre-senescent state. Our findings shed new light on the early events induced by MYCN activation and may help unravelling which factors are required for cells to tolerate unscheduled MYCN overexpression during early malignant transformation.

Published
2021
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3. MYCN-induced nucleolar stress drives an early senescence-like transcriptional program in hTERT-immortalized RPE cells

Author

Winnok H. De Vos, Laurentijn Tilleman, Liselot Mus, Jolien Van Laere, Suzanne Vanhauwaert, Volodimir Olexiouk, Filip Van Nieuwerburgh, Michael D. Hogarty, Christophe Van Neste, Sofia Zanotti, Bieke Decaesteker, Frank Speleman, Dieter Deforce, Kaat Durinck, and Marlies Verschuuren

Subjects
Cell fate commitment, Transcriptome, Downregulation and upregulation, Cell growth, Neuroblastoma, medicine, Context (language use), Telomerase reverse transcriptase, Biology, medicine.disease, neoplasms, Malignant transformation, Cell biology
Abstract

MYCN is an oncogenic driver in neural crest-derived neuroblastoma and medulloblastoma. To better understand the early effects of MYCN activation in a neural-crest lineage context, we profiled the transcriptome of immortalized human retina pigment epithelial cells with inducible MYCN activation. Gene signatures associated with elevated MYC/MYCN activity were induced after 24 h of MYCN activation, which attenuated but sustained at later time points. Unexpectedly, MYCN activation was accompanied by reduced cell growth. Gene set enrichment analysis revealed a senescence-like signature with strong induction of p53 and p21 but in the absence of canonical hallmarks of senescence such as beta-galactosidase positivity, suggesting incomplete cell fate commitment. When scrutinizing the putative drivers of this growth attenuation, differential gene expression analysis identified several regulators of nucleolar stress. This process was also reflected by phenotypic correlates such as cytoplasmic granule accrual and nucleolar coalescence. Hence, we propose that the induction of MYCN congests the translational machinery, causing nucleolar stress and driving cells into a transient pre-senescent state. Our findings shed new light on the early events induced by MYCN activation and may help unravelling which factors are required for cells to tolerate unscheduled MYCN overexpression during early malignant transformation.HighlightsActivation of MYCN attenuates proliferation in RPE1 cellsGrowth arrest is associated with an early senescence-like transcriptional signatureTranscriptional and phenotypic evidence of nucleolar stressCDKN1A upregulation in G2 phase primes cells for faltering in subsequent G1

Published
2021
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4. MYCN-induced nucleolar stress drives an early senescence-like transcriptional program in hTERT-immortalized RPE cells

Author

Joni Van der Meulen, Jolien Van Laere, Winnok H. De Vos, Dieter Deforce, Sofia Zanotti, Laurentijn Tilleman, Bieke Decaesteker, Filip Van Nieuwerburgh, Christophe Van Neste, Volodimir Olexiouk, Frank Speleman, Liselot Mus, Kaat Durinck, Suzanne Vanhauwaert, Marlies Verschuuren, and Michael D. Hogarty

Subjects
0301 basic medicine, Molecular biology, Diseases, Malignant transformation, Transcriptome, Neuroblastoma, 0302 clinical medicine, RIBOSOME BIOGENESIS, Cancer, N-Myc Proto-Oncogene Protein, Multidisciplinary, Molecular medicine, Biological techniques, Cell Cycle, CELLULAR SENESCENCE, Cell Differentiation, Cell biology, GENOME, DIFFERENTIATION, Oncology, Neural Crest, 030220 oncology & carcinogenesis, Medicine, GROWTH, Engineering sciences. Technology, Senescence, EXPRESSION, Science, Context (language use), Biology, METABOLISM, Article, MECHANISMS, Cell fate commitment, Proto-Oncogene Proteins c-myc, 03 medical and health sciences, Cell Line, Tumor, medicine, Genetics, Humans, Telomerase reverse transcriptase, neoplasms, Cell Proliferation, Cell growth, Biology and Life Sciences, AMPLIFICATION, medicine.disease, Computational biology and bioinformatics, 030104 developmental biology, Human medicine, INHIBITORS, Biomarkers
Abstract

MYCN is an oncogenic driver in neural crest-derived neuroblastoma and medulloblastoma. To better understand the early effects of MYCN activation in a neural-crest lineage context, we profiled the transcriptome of immortalized human retina pigment epithelial cells with inducible MYCN activation. Gene signatures associated with elevated MYC/MYCN activity were induced after 24 h of MYCN activation, which attenuated but sustained at later time points. Unexpectedly, MYCN activation was accompanied by reduced cell growth. Gene set enrichment analysis revealed a senescence-like signature with strong induction of p53 and p21 but in the absence of canonical hallmarks of senescence such as β-galactosidase positivity, suggesting incomplete cell fate commitment. When scrutinizing the putative drivers of this growth attenuation, differential gene expression analysis identified several regulators of nucleolar stress. This process was also reflected by phenotypic correlates such as cytoplasmic granule accrual and nucleolar coalescence. Hence, we propose that the induction of MYCN congests the translational machinery, causing nucleolar stress and driving cells into a transient pre-senescent state. Our findings shed new light on the early events induced by MYCN activation and may help unravelling which factors are required for cells to tolerate unscheduled MYCN overexpression during early malignant transformation.

Published
2021

5. Expressed repetitive elements are broadly applicable reference targets for normalization of reverse transcription-qPCR data in mice

Author

Pieter Van Vlierberghe, Irina Lambertz, Ali Rihani, Steven Goossens, Niels Vandamme, Bieke Decaesteker, Andy Willaert, Marjolijn Renard, Marine Vanhomwegen, Jolien Van Laere, Jody J. Haigh, Geert Berx, Suzanne Vanhauwaert, Jo Vandesompele, and Franki Speleman

Subjects
Male, 0301 basic medicine, Normalization (statistics), Cardiovascular Abnormalities, lcsh:Medicine, Mice, Transgenic, Computational biology, Biology, Skin Diseases, Article, Mice, Neuroblastoma, 03 medical and health sciences, Reference genes, Gene expression, Medicine and Health Sciences, Animals, Humans, REAL-TIME PCR, lcsh:Science, Gene, Zebrafish, IN-VIVO, Repetitive Sequences, Nucleic Acid, GENE-EXPRESSION, Multidisciplinary, Reverse Transcriptase Polymerase Chain Reaction, lcsh:R, RNA, Biology and Life Sciences, Reference Standards, biology.organism_classification, Reverse transcriptase, MARFAN-SYNDROME, Mice, Inbred C57BL, MODEL, Disease Models, Animal, 030104 developmental biology, Real-time polymerase chain reaction, DIFFERENTIATION, Leukemia, Prolymphocytic, T-Cell, Female, lcsh:Q
Abstract

Reverse transcription quantitative PCR (RT-qPCR) is the gold standard method for gene expression analysis on mRNA level. To remove experimental variation, expression levels of the gene of interest are typically normalized to the expression level of stably expressed endogenous reference genes. Identifying suitable reference genes and determining the optimal number of reference genes should precede each quantification study. Popular reference genes are not necessarily stably expressed in the examined conditions, possibly leading to inaccurate results. Stably and universally expressed repetitive elements (ERE) have previously been shown to be an excellent alternative for normalization using classic reference genes in human and zebrafish samples. Here, we confirm that in mouse tissues, EREs are broadly applicable reference targets for RT-qPCR normalization, provided that the RNA samples undergo a thorough DNase treatment. We identified Orr1a0, Rltr2aiap, and Rltr13a3 as the most stably expressed mouse EREs across six different experimental conditions. Therefore, we propose this set of ERE reference targets as good candidates for normalization of RT-qPCR data in a plethora of conditions. The identification of widely applicable stable mouse RT-qPCR reference targets for normalization has great potential to facilitate future murine gene expression studies and improve the validity of RT-qPCR data.

Published
2018
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