Neylen Del Toro scite author profile

Cellular senescence is a tumour suppressor programme characterized by a stable cell cycle arrest. Here we report that cellular senescence triggered by a variety of stimuli leads to diminished ribosome biogenesis and the accumulation of both rRNA precursors and ribosomal proteins. These defects were associated with reduced expression of several ribosome biogenesis factors, the knockdown of which was also sufficient to induce senescence. Genetic analysis revealed that Rb but not p53 was required for the senescence response to altered ribosome biogenesis. Mechanistically, the ribosomal protein S14 (RPS14 or uS11) accumulates in the soluble non-ribosomal fraction of senescent cells, where it binds and inhibits CDK4 (cyclin-dependent kinase 4). Overexpression of RPS14 is sufficient to inhibit Rb phosphorylation, inducing cell cycle arrest and senescence. Here we describe a mechanism for maintaining the senescent cell cycle arrest that may be relevant for cancer therapy, as well as biomarkers to identify senescent cells.

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Synergistic interactions of the anti-casein kinase 2 CIGB-300 peptide and chemotherapeutic agents in lung and cervical preclinical cancer models

Perera

Toro

Gorovaya

et al. 2014

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Abstract. CIGB-300 is a novel clinical-stage synthetic peptide that impairs the casein kinase 2 (CK2)-mediated phosphorylation of B23/nucleophosmin in different experimental settings and cancer models. As a single agent, CIGB-300 induces apoptosis in vitro and in vivo and modulates an array of proteins that are mainly involved in drug resistance, cell proliferation and apoptosis, as determined by proteomic analysis. However, the clinical oncology practice and cumulative knowledge on tumor biology suggest that drug combinations are more likely to cope with tumor complexity compared to single agents. In this study, we investigated the antiproliferative effect of CIGB-300 when combined with different anticancer drugs, such as cisplatin (alkylating), paclitaxel (antimitotic), doxorubicin (antitopoisomerase II) or 5-fluorouracil (DNA/RNA antimetabolite) in cell lines derived from lung and cervical cancer. Of note, using a Latin square design and subsequent analysis by CalcuSyn software, we observed that paclitaxel and cisplatin exhibited the best synergistic/additive profile when combined with CIGB-300, according to the combination and dose reduction indices. Such therapeutically favorable profiles may be explained by a direct cytotoxic effect and also by the observed cell cycle impairment following incubation of tumor cells with selected drug combinations. Importantly, on in vivo dose-finding schedules in human cervical tumors xenografted in nude mice, we observed that concomitant administration of CIGB-300 and cisplatin increased mice survival compared to single-agent treatment. Collectively, these findings provide a rationale for combining the anti-CK2 CIGB-300 peptide with currently available anticancer agents in the clinical setting and indicate platins and taxanes as compounds with major perspectives.

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Ribosomal protein RPL22/eL22 regulates the cell cycle by acting as an inhibitor of the CDK4-cyclin D complex

et al. 2019

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Senescence is a tumor suppressor program characterized by a stable growth arrest while maintaining cell viability. Senescence-associated ribogenesis defects (SARD) have been shown to regulate senescence through the ability of the ribosomal protein S14 (RPS14 or uS11) to bind and inhibit the cyclin-dependent kinase 4 (CDK4). Here we report another ribosomal protein that binds and inhibits CDK4 in senescent cells: L22 (RPL22 or eL22). Enforcing the expression of RPL22/eL22 is sufficient to induce an RB and p53-dependent cellular senescent phenotype in human fibroblasts. Mechanistically, RPL22/eL22 can interact with and inhibit CDK4-Cyclin D1 to decrease RB phosphorylation both in vitro and in cells. Briefly, we show that ribosome-free RPL22/ eL22 causes a cell cycle arrest which could be relevant during situations of nucleolar stress such as cellular senescence or the response to cancer chemotherapy.

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Cellular senescence limits translational readthrough

Toro

Lessard

Bouchard

et al. 2021

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The origin and evolution of cancer cells is considered to be mainly fueled by DNA mutations. Although translation errors could also expand the cellular proteome, their role in cancer biology remains poorly understood. Tumor suppressors called caretakers block cancer initiation and progression by preventing DNA mutations and/or stimulating DNA repair. If translational errors contribute to tumorigenesis, then caretakers genes should prevent such errors in normal cells in response to oncogenic stimuli. Here, we show that the process of cellular senescence induced by oncogenes, tumor suppressors or chemotherapeutic drugs is associated to a reduction in translational readthrough (TR) measured using reporters containing termination codons withing the context of both normal translation termination or programmed TR. Senescence reduced both basal TR and TR stimulated by aminoglycosides. Mechanistically, the reduction of TR during senescence is controlled by the RB tumor suppressor pathway. Cells that escape from cellular senescence either induced by oncogenes or chemotherapy have an increased TR. Also, breast cancer cells that escape from therapy-induced senescence express high levels of AGO1x, a TR isoform of AGO1 linked to breast cancer progression. We propose that senescence and the RB pathway reduce TR limiting proteome diversity and the expression of TR proteins required for cancer cell proliferation.

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A RAPID METHOD FOR ESTIMATING VIABILITY IN DESICCATED CELLS OF THE BIOCONTROL AGENT TSUKAMURELLA PAUROMETABOLA C‐924

Hernández

Moreira

Pimentel

et al. 2008

Rapid Methods Automation Mic

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A new method for the rapid estimation of viability in anhydrobiotic cells of the biocontrol agent Tsukamurella paurometabola C-924 was developed. The method is based on the absorbance due to hydrogen sulfide production. A linear model was obtained by plotting decimal logarithm of the corrected absorbance at 670 nm (log[Abs corrected ]) versus the decimal logarithm of culturable cells (log[X v ]) (r 2 = 0.9428). After comparing the results obtained by the proposed method to the ones obtained by the plate counting technique, no significant difference was observed in the number of culturable cells. The new technique, which is faster than plate counting, permits the estimation of biologic activity in anhydrobiotic cells of the strain C-924 in only 2 h. PRACTICAL APPLICATIONSNo previous reports concerning the method presented in this paper were found in the reviewed literature; in our particular case, this method allows a rapid evaluation of the viability and physiologic state of Tsukamurella paurometabola C-924. The method presented here permits the estimation of viability in desiccated cells of bacteria that produce hydrogen sulfide from cysteine as a sulfur source. This methodology could be applied in research related to the isolation of anhydrobiotes hydrogen sulfide producers. In addition, industrial application could be found, for example, the assessment of the 3 Corresponding 222 viability of bacteria hydrogen sulfide producers formulated in wettable powders used in bioremediation or bioprecipitation of heavy metals. Furthermore, the biologic activity of these microorganisms could be estimated (i.e., desulfurase activity).

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Neylen Del Toro

Senescence-associated ribosome biogenesis defects contributes to cell cycle arrest through the Rb pathway

Synergistic interactions of the anti-casein kinase 2 CIGB-300 peptide and chemotherapeutic agents in lung and cervical preclinical cancer models

Ribosomal protein RPL22/eL22 regulates the cell cycle by acting as an inhibitor of the CDK4-cyclin D complex

Cellular senescence limits translational readthrough

A RAPID METHOD FOR ESTIMATING VIABILITY IN DESICCATED CELLS OF THE BIOCONTROL AGENT TSUKAMURELLA PAUROMETABOLA C‐924

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