Targeting the Human 80S Ribosome in Cancer: From Structure to Function and Drug Design for Innovative Adjuvant Therapeutic Strategies

Gilles, Arnaud; Fréchin, Léo; Natchiar, K.S.; Biondani, Giulia; Loeffelholz, Ottilie von; Holvec, Samuel; Malaval, Julie-Lisa; Winum, Jean‐Yves; Klaholz, Bruno P.; Peyron, Jean‐François

doi:10.3390/cells9030629

Cited by 46 publications

(52 citation statements)

References 132 publications

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“…To investigate the role of the ribosome in tumor and ribosomopathies [ 38 , 39 ], mutational surveys and genetic screenings have more generally identified specific sites and regions of the ribosome structure, which can serve as primary targets for drug treatment. Although there are still some limitations due to the low throughput of the technique and time to obtain structure at high resolution, using cryo-EM can explain how specific ligands can bind to ribosomes and inhibit their activity, offering a new perspective for structure-based drug design [ 40 , 41 ].…”

Section: The Multiple Sources Of Heterogeneity In Ribosome Structumentioning

confidence: 99%

“…While this approach has been relatively recent in human [ 41 , 42 , 43 , 44 ], the determination of complex ribosomal structures with binding drugs has been an intense subject of study in bacteria. Superimposition and comparison with regular structures have explained how antibiotic drugs can target and modify specific sites of the ribosome, to interfere with different key steps during translation [ 45 ].…”

Section: The Multiple Sources Of Heterogeneity In Ribosome Structumentioning

confidence: 99%

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Structural Heterogeneities of the Ribosome: New Frontiers and Opportunities for Cryo-EM

Poitevin

Kushner

et al. 2020

Molecules

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The extent of ribosomal heterogeneity has caught increasing interest over the past few years, as recent studies have highlighted the presence of structural variations of the ribosome. More precisely, the heterogeneity of the ribosome covers multiple scales, including the dynamical aspects of ribosomal motion at the single particle level, specialization at the cellular and subcellular scale, or evolutionary differences across species. Upon solving the ribosome atomic structure at medium to high resolution, cryogenic electron microscopy (cryo-EM) has enabled investigating all these forms of heterogeneity. In this review, we present some recent advances in quantifying ribosome heterogeneity, with a focus on the conformational and evolutionary variations of the ribosome and their functional implications. These efforts highlight the need for new computational methods and comparative tools, to comprehensively model the continuous conformational transition pathways of the ribosome, as well as its evolution. While developing these methods presents some important challenges, it also provides an opportunity to extend our interpretation and usage of cryo-EM data, which would more generally benefit the study of molecular dynamics and evolution of proteins and other complexes.

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Section: The Multiple Sources Of Heterogeneity In Ribosome Structumentioning

confidence: 99%

Section: The Multiple Sources Of Heterogeneity In Ribosome Structumentioning

confidence: 99%

Structural Heterogeneities of the Ribosome: New Frontiers and Opportunities for Cryo-EM

Poitevin

Kushner

et al. 2020

Molecules

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“…The rationale for targeting ribosome biogenesis in cancer is based on experimental and clinical evidence showing that tumorigenesis is associated with quantitative increases in ribosome production and/or production of qualitatively-altered ribosome species [44,45,47,48,52,[170][171][172][173]. These characteristics have formed the basis for the development of new drugs that disrupt the activation of rRNA synthesis by directly targeting the formation and activity of the RNA pol I transcriptional complex on rDNA [51,[174][175][176].…”

Section: Targeting Ribosome Rna Synthesis In Colorectal Cancermentioning

confidence: 99%

Ribosome Biogenesis Alterations in Colorectal Cancer

Slimane

Marcel

Fenouil

et al. 2020

Cells

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Many studies have focused on understanding the regulation and functions of aberrant protein synthesis in colorectal cancer (CRC), leaving the ribosome, its main effector, relatively underappreciated in CRC. The production of functional ribosomes is initiated in the nucleolus, requires coordinated ribosomal RNA (rRNA) processing and ribosomal protein (RP) assembly, and is frequently hyperactivated to support the needs in protein synthesis essential to withstand unremitting cancer cell growth. This elevated ribosome production in cancer cells includes a strong alteration of ribosome biogenesis homeostasis that represents one of the hallmarks of cancer cells. None of the ribosome production steps escape this cancer-specific dysregulation. This review summarizes the early and late steps of ribosome biogenesis dysregulations described in CRC cell lines, intestinal organoids, CRC stem cells and mouse models, and their possible clinical implications. We highlight how this cancer-related ribosome biogenesis, both at quantitative and qualitative levels, can lead to the synthesis of ribosomes favoring the translation of mRNAs encoding hyperproliferative and survival factors. We also discuss whether cancer-related ribosome biogenesis is a mere consequence of cancer progression or is a causal factor in CRC, and how altered ribosome biogenesis pathways can represent effective targets to kill CRC cells. The association between exacerbated CRC cell growth and alteration of specific steps of ribosome biogenesis is highlighted as a key driver of tumorigenesis, providing promising perspectives for the implementation of predictive biomarkers and the development of new therapeutic drugs.

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Section: Introductionmentioning

confidence: 99%

“…Ribosomal proteins play a pivotal role in maintaining the architecture of large (60S) and small (40S) ribosomal subunits and are involved in the operation of the translational machinery, being its constituents [1][2][3][4][5]. A typical mammalian ribosome contains 80 individual ribosomal proteins [5], most of which are essential for cell viability. The deficiency of ribosomal proteins in cells usually causes significant disturbances in the processing of rRNA and the assembly of ribosomal subunits, which leads to a reduction in the population of ribosomes and, as a consequence, to a decrease in the rate of protein synthesis [6][7][8].…”

Section: Introductionmentioning

confidence: 99%

Knockdown of the Ribosomal Protein eL29 in Mammalian Cells Leads to Significant Changes in Gene Expression at the Transcription Level

Gopanenko

Kolobova

Meschaninova

et al. 2020

Cells

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An imbalance in the synthesis of ribosomal proteins can lead to the disruption of various cellular processes. For mammalian cells, it has been shown that the level of the eukaryote-specific ribosomal protein eL29, also known as the one interacting with heparin/heparan sulfate, substantially affects their growth. Moreover, in animals lacking this protein, a number of anatomical abnormalities have been observed. Here, we applied next-generation RNA sequencing to HEK293 cells transfected with siRNAs specific for the mRNA of eL29 to determine what changes occur in the transcriptome profile with a decrease in the level of the target protein. We showed that an approximately 2.5-fold decrease in the content of eL29 leads to statistically significant changes in the expression of more than a thousand genes at the transcription level, without a noticeable effect on cell viability, rRNA level, and global translation. The set of eL29-dependent genes included both up-regulated and down-regulated ones, among which there are those previously identified as targets for proteins implicated in oncogenesis. Thus, our findings demonstrate that an insufficiency of eL29 in mammalian cells causes a significant reorganization of gene expression, thereby highlighting the relationship between the cellular balance of eL29 and the activities of certain genes.

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Targeting the Human 80S Ribosome in Cancer: From Structure to Function and Drug Design for Innovative Adjuvant Therapeutic Strategies

Cited by 46 publications

References 132 publications

Structural Heterogeneities of the Ribosome: New Frontiers and Opportunities for Cryo-EM

Structural Heterogeneities of the Ribosome: New Frontiers and Opportunities for Cryo-EM

Ribosome Biogenesis Alterations in Colorectal Cancer

Knockdown of the Ribosomal Protein eL29 in Mammalian Cells Leads to Significant Changes in Gene Expression at the Transcription Level

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