Sinisa Volarevic - Academia.edu (original) (raw)
Papers by Sinisa Volarevic
TPL2-NPM-p53 pathway monitors nucleolar stress
Cell Death & Differentiation
Oncogene
The nucleolus is the major site for synthesis of ribosomes, complex molecular machines that are r... more The nucleolus is the major site for synthesis of ribosomes, complex molecular machines that are responsible for protein synthesis. A wealth of research over the past 20 years has clearly indicated that both quantitative and qualitative alterations in ribosome biogenesis can drive the malignant phenotype via dysregulation of protein synthesis. However, numerous recent proteomic, genomic, and functional studies have implicated the nucleolus in the regulation of processes that are unrelated to ribosome biogenesis, including DNA-damage response, maintenance of genome stability and its spatial organization, epigenetic regulation, cell-cycle control, stress responses, senescence, global gene expression, as well as assembly or maturation of various ribonucleoprotein particles. In this review, the focus will be on features of rDNA genes, which make them highly vulnerable to DNA damage and intra-and interchromosomal recombination as well as built-in mechanisms that prevent and repair rDNA damage, and how dysregulation of this interplay affects genome-wide DNA stability, gene expression and the balance between euchromatin and heterochromatin. We will also present the most recent insights into how malfunction of these cellular processes may be a central driving force of human malignancies, and propose a promising new therapeutic approach for the treatment of cancer.
Nature reviews. Cancer, 2017
The ribosome is a complex molecular machine composed of numerous distinct proteins and nucleic ac... more The ribosome is a complex molecular machine composed of numerous distinct proteins and nucleic acids and is responsible for protein synthesis in every living cell. Ribosome biogenesis is one of the most multifaceted and energy- demanding processes in biology, involving a large number of assembly and maturation factors, the functions of which are orchestrated by multiple cellular inputs, including mitogenic signals and nutrient availability. Although causal associations between inherited mutations affecting ribosome biogenesis and elevated cancer risk have been established over the past decade, mechanistic data have emerged suggesting a broader role for dysregulated ribosome biogenesis in the development and progression of most spontaneous cancers. In this Opinion article, we highlight the most recent findings that provide new insights into the molecular basis of ribosome biogenesis in cancer and offer our perspective on how these observations present opportunities for the design of ...
Proceedings of the National Academy of Sciences of the United States of America, Jan 24, 2017
The microRNA miR-504 targets TP53 mRNA encoding the p53 tumor suppressor. miR-504 resides within ... more The microRNA miR-504 targets TP53 mRNA encoding the p53 tumor suppressor. miR-504 resides within the fibroblast growth factor 13 (FGF13) gene, which is overexpressed in various cancers. We report that the FGF13 locus, comprising FGF13 and miR-504, is transcriptionally repressed by p53, defining an additional negative feedback loop in the p53 network. Furthermore, we show that FGF13 1A is a nucleolar protein that represses ribosomal RNA transcription and attenuates protein synthesis. Importantly, in cancer cells expressing high levels of FGF13, the depletion of FGF13 elicits increased proteostasis stress, associated with the accumulation of reactive oxygen species and apoptosis. Notably, stepwise neoplastic transformation is accompanied by a gradual increase in FGF13 expression and increased dependence on FGF13 for survival ("nononcogene addiction"). Moreover, FGF13 overexpression enables cells to cope more effectively with the stress elicited by oncogenic Ras protein. We p...
Seminars in cancer biology, Jan 23, 2015
The nucleolus is the most prominent nuclear substructure assigned to produce ribosomes; molecular... more The nucleolus is the most prominent nuclear substructure assigned to produce ribosomes; molecular machines that are responsible for carrying out protein synthesis. To meet the increased demand for proteins during cell growth and proliferation the cell must increase protein synthetic capacity by upregulating ribosome biogenesis. While larger nucleolar size and number have been recognized as hallmark features of many tumor types, recent evidence has suggested that, in addition to overproduction of ribosomes, decreased ribosome biogenesis as well as qualitative changes in this process could also contribute to tumor initiation and cancer progression. Furthermore, the nucleolus has become the focus of intense attention for its involvement in processes that are clearly unrelated to ribosome biogenesis such as sensing and responding to endogenous and exogenous stressors, maintenance of genome stability, regulation of cell-cycle progression, cellular senescence, telomere function, chromatin...
The Journal of Immunology
We have shown previously that human CD4 ؉ 45RO ؊ T cells could be primed for a Th2 phenotype inde... more We have shown previously that human CD4 ؉ 45RO ؊ T cells could be primed for a Th2 phenotype independent of IL-4 if they were activated by anti-CD28 mAb plus IL-2. If additional TCR signals were provided, the cells differentiated toward Th1 independent of IL-12. Here we show that anti-CD28/IL-2-primed Th2 cells expressed high levels of activated STAT6, but no cytokine mRNA. Moreover, both Th1 and Th2 cells expressed active STAT1 and-3, but not STAT2,-4, and-5. Restimulation of Th1 or Th2 cells via CD3 plus CD28 induced production of IFN-␥ or IL-4, respectively, but did not alter the activation status/DNA binding activity of STATs. Addition of IL-4 (or anti-IL-4 mAb) to restimulated Th2 cells did not modulate STAT6 activation or IL-4 expression, confirming the full commitment. However, Th2 cells remained responsive to IL-12, which repressed STAT6 DNA binding but activated STAT4, and this coincided with a suppression of IL-4/IL-5 and an induction of IFN-␥. In Th1 cells, IL-12 activated both STAT6 and STAT4, and IL-4 activated STAT6, but in both cases the Th1 phenotype remained. Together the data show that CD28/IL-2-dependent Th2 priming activated STAT6 without inducing IL-4 expression. The primed Th cells resembled memory cells and produced IL-4 upon the first CD3/CD28 costimulus without detectable modulation of STATs. Th2 cells remained responsive to IL-12, which repressed STAT6 DNA binding and activated STAT4, and switched the cells to Th1. The effects of IL-12 may depend on the commitment of the cells, since IL-12 phosphorylated STAT6 in Th1 and dephosphorylated STAT6 in Th2 cells.
Croatian Medical Journal
The development of strategies which allow the inactivation of specific murine genes by homologous... more The development of strategies which allow the inactivation of specific murine genes by homologous recombination in embryonic cells has revolutionized biological science in the last 10 years. A large number of mice carrying genetic lesions, generated by gene targeting technology, has tremendously increased our knowledge in many areas of biology, culminating in the identification of mouse models for human genetic disorders. These findings have been recently complemented by "conditional" gene targeting technology, allowing gene inactivation in a defined tissue and at a specific time point during development or adulthood, thereby extending the sophistication and potential of this technology.
Croatian medical journal, 2005
Cell growth and cell division are fundamental aspects of cell behavior in all organisms. Recent i... more Cell growth and cell division are fundamental aspects of cell behavior in all organisms. Recent insights from many model organisms have shed light on the molecular mechanisms that control cell growth and cell division. A significant body of evidence has now been accumulated, showing a direct link between deregulation of components of cell cycle machinery and cancer. In addition, defects in one or more steps that control growth are important for malignant transformation, as many tumor suppressors and proto-oncogenes have been found to regulate cell growth. The importance of cell growth in tumor development is further supported by the discovery that rapamycin, an effective anticancer drug, inhibits a key regulator of protein synthetic machinery and cell growth, mammalian target of rapamycin (mTOR). In most cases, cell growth and cell division are coupled, thereby maintaining cell size within physiological limits. We believe that, in a long-term perspective, understanding how these two...
Croatian medical journal, 1999
The development of strategies which allow the inactivation of specific murine genes by homologous... more The development of strategies which allow the inactivation of specific murine genes by homologous recombination in embryonic cells has revolutionized biological science in the last 10 years. A large number of mice carrying genetic lesions, generated by gene targeting technology, has tremendously increased our knowledge in many areas of biology, culminating in the identification of mouse models for human genetic disorders. These findings have been recently complemented by "conditional" gene targeting technology, allowing gene inactivation in a defined tissue and at a specific time point during development or adulthood, thereby extending the sophistication and potential of this technology.
Journal of immunology (Baltimore, Md. : 1950), 1998
We have shown previously that human CD4+ 45RO- T cells could be primed for a Th2 phenotype indepe... more We have shown previously that human CD4+ 45RO- T cells could be primed for a Th2 phenotype independent of IL-4 if they were activated by anti-CD28 mAb plus IL-2. If additional TCR signals were provided, the cells differentiated toward Th1 independent of IL-12. Here we show that anti-CD28/IL-2-primed Th2 cells expressed high levels of activated STAT6, but no cytokine mRNA. Moreover, both Th1 and Th2 cells expressed active STAT1 and -3, but not STAT2, -4, and -5. Restimulation of Th1 or Th2 cells via CD3 plus CD28 induced production of IFN-gamma or IL-4, respectively, but did not alter the activation status/DNA binding activity of STATs. Addition of IL-4 (or anti-IL-4 mAb) to restimulated Th2 cells did not modulate STAT6 activation or IL-4 expression, confirming the full commitment. However, Th2 cells remained responsive to IL-12, which repressed STAT6 DNA binding but activated STAT4, and this coincided with a suppression of IL-4/IL-5 and an induction of IFN-gamma. In Th1 cells, IL-12...
The Journal of biological chemistry, Jan 24, 1997
Stimuli that are mitogenic for mature T-cells induce cell cycle arrest in some T-cell tumors and ... more Stimuli that are mitogenic for mature T-cells induce cell cycle arrest in some T-cell tumors and T-cell hybridomas. The molecular mechanism of this growth inhibition is poorly understood. In this report, we show that in EL4, a murine T-lymphoma cell line, stimulation with concanavalin A or treatment with phorbol 13-myristate 12-acetate (PMA) inhibit growth, due to cell cycle arrest at both the G1 and the G2/M phases. The block at the G1 phase is accompanied by the appearance of a hypophosphorylated form of the retinoblastoma protein (pRb), due to the inhibition of G1 cyclin-Cdk complexes. However, the molecular mechanisms leading to this G1 cell cycle arrest differ between concanavalin A and PMA: concanavalin A inhibits both cyclin E-Cdk2 and cyclin D-Cdk4 complexes, while PMA inhibits only cyclin E-Cdk2. We demonstrate that concanavalin A inhibits cyclin D-Cdk4 activity by decreasing the amount of cyclin D. The inhibition of cyclin E-Cdk2 by both concanavalin A and PMA is due to in...
Plućne bolesti : casopis Udruzenja pneumoftiziologa Jugoslavije = the journal of Yugoslav Association of Phthisiology and Pneumology
Diffusing lung capacity (DLCO) was determined at various levels of exercise in three groups of su... more Diffusing lung capacity (DLCO) was determined at various levels of exercise in three groups of subjects: group with normal spirometry, patients with moderate and severe chronic obstructive pulmonary disease (COPD). Subjects were males with similar anthropometric characteristics and age. Positive correlation between progressive exercise and DLCO was obtained only for the first and second group. Resting and exercise DLCO values were statistically different between the groups. COPD attenuated DLCO at all levels of exercise. However, patients with moderate COPD had DLCO in the normal range, while severe COPD patients had reduction in DLCO during rest and exercise. This test is useful in assessing the working capacity in COPD patients and also as a screening test for exercise-induced hypoxemia.
Science, 1993
The CD45 protein is a transmembrane tyrosine phosphatase that is required for normal T cell recep... more The CD45 protein is a transmembrane tyrosine phosphatase that is required for normal T cell receptor (TCR)-mediated signaling. A chimeric complementary DNA encoding the intracellular enzymatically active portion of murine CD45 preceded by a short amino-terminal sequence from p60c-src was transfected into CD45- T cells. Expression of this chimeric protein corrected most of the TCR signaling abnormalities observed in the absence of CD45, including TCR-mediated enhancement of tyrosine kinase activity and Ca2+ flux. Thus, the enzymatically active intracellular portion of CD45 is sufficient to allow TCR transmembrane signaling.
Progress in Nucleic Acid Research and Molecular Biology, 2000
This article reviews our current knowledge of the role of ribosomal protein S6 phosphorylation an... more This article reviews our current knowledge of the role of ribosomal protein S6 phosphorylation and the S6 kinase (S6K) signaling pathway in the regulation of cell growth and proliferation. Although 40S ribosomal protein S6 phosphorylation was first described 25 years ago, it only recently has been implicated in the translational up-regulation of mRNAs coding for the components of protein synthetic apparatus. These mRNAs contain an oligopyrimidine tract at their 5' transcriptional start site, termed a 5'TOP, which has been shown to be essential for their regulation at the translational level. In parallel, a great deal of information has accumulated concerning the identification of the signaling pathway and the regulatory phosphorylation sites involved in controlling S6K activation. Despite this knowledge we are only beginning to identify the direct upstream elements involved in growth factor-induced kinase activation. Use of the immunosupressant rapamycin, a bacterial macrolide, in conjunction with dominant interfering and activated forms of S6K1 has helped to establish the role of this signaling cascade in the regulation of growth and proliferation. In addition, current studies employing the mouse as well as Drosophila melanogaster have provided new insights into physiological function of S6K in the animal. Deletion of the S6K1 gene in mouse cells led to an animal of reduced size and the identification of the S6K1 homolog, S6K2, whereas loss of dS6K function in Drosophila demonstrated its paramount importance in development and growth control.
TPL2-NPM-p53 pathway monitors nucleolar stress
Cell Death & Differentiation
Oncogene
The nucleolus is the major site for synthesis of ribosomes, complex molecular machines that are r... more The nucleolus is the major site for synthesis of ribosomes, complex molecular machines that are responsible for protein synthesis. A wealth of research over the past 20 years has clearly indicated that both quantitative and qualitative alterations in ribosome biogenesis can drive the malignant phenotype via dysregulation of protein synthesis. However, numerous recent proteomic, genomic, and functional studies have implicated the nucleolus in the regulation of processes that are unrelated to ribosome biogenesis, including DNA-damage response, maintenance of genome stability and its spatial organization, epigenetic regulation, cell-cycle control, stress responses, senescence, global gene expression, as well as assembly or maturation of various ribonucleoprotein particles. In this review, the focus will be on features of rDNA genes, which make them highly vulnerable to DNA damage and intra-and interchromosomal recombination as well as built-in mechanisms that prevent and repair rDNA damage, and how dysregulation of this interplay affects genome-wide DNA stability, gene expression and the balance between euchromatin and heterochromatin. We will also present the most recent insights into how malfunction of these cellular processes may be a central driving force of human malignancies, and propose a promising new therapeutic approach for the treatment of cancer.
Nature reviews. Cancer, 2017
The ribosome is a complex molecular machine composed of numerous distinct proteins and nucleic ac... more The ribosome is a complex molecular machine composed of numerous distinct proteins and nucleic acids and is responsible for protein synthesis in every living cell. Ribosome biogenesis is one of the most multifaceted and energy- demanding processes in biology, involving a large number of assembly and maturation factors, the functions of which are orchestrated by multiple cellular inputs, including mitogenic signals and nutrient availability. Although causal associations between inherited mutations affecting ribosome biogenesis and elevated cancer risk have been established over the past decade, mechanistic data have emerged suggesting a broader role for dysregulated ribosome biogenesis in the development and progression of most spontaneous cancers. In this Opinion article, we highlight the most recent findings that provide new insights into the molecular basis of ribosome biogenesis in cancer and offer our perspective on how these observations present opportunities for the design of ...
Proceedings of the National Academy of Sciences of the United States of America, Jan 24, 2017
The microRNA miR-504 targets TP53 mRNA encoding the p53 tumor suppressor. miR-504 resides within ... more The microRNA miR-504 targets TP53 mRNA encoding the p53 tumor suppressor. miR-504 resides within the fibroblast growth factor 13 (FGF13) gene, which is overexpressed in various cancers. We report that the FGF13 locus, comprising FGF13 and miR-504, is transcriptionally repressed by p53, defining an additional negative feedback loop in the p53 network. Furthermore, we show that FGF13 1A is a nucleolar protein that represses ribosomal RNA transcription and attenuates protein synthesis. Importantly, in cancer cells expressing high levels of FGF13, the depletion of FGF13 elicits increased proteostasis stress, associated with the accumulation of reactive oxygen species and apoptosis. Notably, stepwise neoplastic transformation is accompanied by a gradual increase in FGF13 expression and increased dependence on FGF13 for survival ("nononcogene addiction"). Moreover, FGF13 overexpression enables cells to cope more effectively with the stress elicited by oncogenic Ras protein. We p...
Seminars in cancer biology, Jan 23, 2015
The nucleolus is the most prominent nuclear substructure assigned to produce ribosomes; molecular... more The nucleolus is the most prominent nuclear substructure assigned to produce ribosomes; molecular machines that are responsible for carrying out protein synthesis. To meet the increased demand for proteins during cell growth and proliferation the cell must increase protein synthetic capacity by upregulating ribosome biogenesis. While larger nucleolar size and number have been recognized as hallmark features of many tumor types, recent evidence has suggested that, in addition to overproduction of ribosomes, decreased ribosome biogenesis as well as qualitative changes in this process could also contribute to tumor initiation and cancer progression. Furthermore, the nucleolus has become the focus of intense attention for its involvement in processes that are clearly unrelated to ribosome biogenesis such as sensing and responding to endogenous and exogenous stressors, maintenance of genome stability, regulation of cell-cycle progression, cellular senescence, telomere function, chromatin...
The Journal of Immunology
We have shown previously that human CD4 ؉ 45RO ؊ T cells could be primed for a Th2 phenotype inde... more We have shown previously that human CD4 ؉ 45RO ؊ T cells could be primed for a Th2 phenotype independent of IL-4 if they were activated by anti-CD28 mAb plus IL-2. If additional TCR signals were provided, the cells differentiated toward Th1 independent of IL-12. Here we show that anti-CD28/IL-2-primed Th2 cells expressed high levels of activated STAT6, but no cytokine mRNA. Moreover, both Th1 and Th2 cells expressed active STAT1 and-3, but not STAT2,-4, and-5. Restimulation of Th1 or Th2 cells via CD3 plus CD28 induced production of IFN-␥ or IL-4, respectively, but did not alter the activation status/DNA binding activity of STATs. Addition of IL-4 (or anti-IL-4 mAb) to restimulated Th2 cells did not modulate STAT6 activation or IL-4 expression, confirming the full commitment. However, Th2 cells remained responsive to IL-12, which repressed STAT6 DNA binding but activated STAT4, and this coincided with a suppression of IL-4/IL-5 and an induction of IFN-␥. In Th1 cells, IL-12 activated both STAT6 and STAT4, and IL-4 activated STAT6, but in both cases the Th1 phenotype remained. Together the data show that CD28/IL-2-dependent Th2 priming activated STAT6 without inducing IL-4 expression. The primed Th cells resembled memory cells and produced IL-4 upon the first CD3/CD28 costimulus without detectable modulation of STATs. Th2 cells remained responsive to IL-12, which repressed STAT6 DNA binding and activated STAT4, and switched the cells to Th1. The effects of IL-12 may depend on the commitment of the cells, since IL-12 phosphorylated STAT6 in Th1 and dephosphorylated STAT6 in Th2 cells.
Croatian Medical Journal
The development of strategies which allow the inactivation of specific murine genes by homologous... more The development of strategies which allow the inactivation of specific murine genes by homologous recombination in embryonic cells has revolutionized biological science in the last 10 years. A large number of mice carrying genetic lesions, generated by gene targeting technology, has tremendously increased our knowledge in many areas of biology, culminating in the identification of mouse models for human genetic disorders. These findings have been recently complemented by "conditional" gene targeting technology, allowing gene inactivation in a defined tissue and at a specific time point during development or adulthood, thereby extending the sophistication and potential of this technology.
Croatian medical journal, 2005
Cell growth and cell division are fundamental aspects of cell behavior in all organisms. Recent i... more Cell growth and cell division are fundamental aspects of cell behavior in all organisms. Recent insights from many model organisms have shed light on the molecular mechanisms that control cell growth and cell division. A significant body of evidence has now been accumulated, showing a direct link between deregulation of components of cell cycle machinery and cancer. In addition, defects in one or more steps that control growth are important for malignant transformation, as many tumor suppressors and proto-oncogenes have been found to regulate cell growth. The importance of cell growth in tumor development is further supported by the discovery that rapamycin, an effective anticancer drug, inhibits a key regulator of protein synthetic machinery and cell growth, mammalian target of rapamycin (mTOR). In most cases, cell growth and cell division are coupled, thereby maintaining cell size within physiological limits. We believe that, in a long-term perspective, understanding how these two...
Croatian medical journal, 1999
The development of strategies which allow the inactivation of specific murine genes by homologous... more The development of strategies which allow the inactivation of specific murine genes by homologous recombination in embryonic cells has revolutionized biological science in the last 10 years. A large number of mice carrying genetic lesions, generated by gene targeting technology, has tremendously increased our knowledge in many areas of biology, culminating in the identification of mouse models for human genetic disorders. These findings have been recently complemented by "conditional" gene targeting technology, allowing gene inactivation in a defined tissue and at a specific time point during development or adulthood, thereby extending the sophistication and potential of this technology.
Journal of immunology (Baltimore, Md. : 1950), 1998
We have shown previously that human CD4+ 45RO- T cells could be primed for a Th2 phenotype indepe... more We have shown previously that human CD4+ 45RO- T cells could be primed for a Th2 phenotype independent of IL-4 if they were activated by anti-CD28 mAb plus IL-2. If additional TCR signals were provided, the cells differentiated toward Th1 independent of IL-12. Here we show that anti-CD28/IL-2-primed Th2 cells expressed high levels of activated STAT6, but no cytokine mRNA. Moreover, both Th1 and Th2 cells expressed active STAT1 and -3, but not STAT2, -4, and -5. Restimulation of Th1 or Th2 cells via CD3 plus CD28 induced production of IFN-gamma or IL-4, respectively, but did not alter the activation status/DNA binding activity of STATs. Addition of IL-4 (or anti-IL-4 mAb) to restimulated Th2 cells did not modulate STAT6 activation or IL-4 expression, confirming the full commitment. However, Th2 cells remained responsive to IL-12, which repressed STAT6 DNA binding but activated STAT4, and this coincided with a suppression of IL-4/IL-5 and an induction of IFN-gamma. In Th1 cells, IL-12...
The Journal of biological chemistry, Jan 24, 1997
Stimuli that are mitogenic for mature T-cells induce cell cycle arrest in some T-cell tumors and ... more Stimuli that are mitogenic for mature T-cells induce cell cycle arrest in some T-cell tumors and T-cell hybridomas. The molecular mechanism of this growth inhibition is poorly understood. In this report, we show that in EL4, a murine T-lymphoma cell line, stimulation with concanavalin A or treatment with phorbol 13-myristate 12-acetate (PMA) inhibit growth, due to cell cycle arrest at both the G1 and the G2/M phases. The block at the G1 phase is accompanied by the appearance of a hypophosphorylated form of the retinoblastoma protein (pRb), due to the inhibition of G1 cyclin-Cdk complexes. However, the molecular mechanisms leading to this G1 cell cycle arrest differ between concanavalin A and PMA: concanavalin A inhibits both cyclin E-Cdk2 and cyclin D-Cdk4 complexes, while PMA inhibits only cyclin E-Cdk2. We demonstrate that concanavalin A inhibits cyclin D-Cdk4 activity by decreasing the amount of cyclin D. The inhibition of cyclin E-Cdk2 by both concanavalin A and PMA is due to in...
Plućne bolesti : casopis Udruzenja pneumoftiziologa Jugoslavije = the journal of Yugoslav Association of Phthisiology and Pneumology
Diffusing lung capacity (DLCO) was determined at various levels of exercise in three groups of su... more Diffusing lung capacity (DLCO) was determined at various levels of exercise in three groups of subjects: group with normal spirometry, patients with moderate and severe chronic obstructive pulmonary disease (COPD). Subjects were males with similar anthropometric characteristics and age. Positive correlation between progressive exercise and DLCO was obtained only for the first and second group. Resting and exercise DLCO values were statistically different between the groups. COPD attenuated DLCO at all levels of exercise. However, patients with moderate COPD had DLCO in the normal range, while severe COPD patients had reduction in DLCO during rest and exercise. This test is useful in assessing the working capacity in COPD patients and also as a screening test for exercise-induced hypoxemia.
Science, 1993
The CD45 protein is a transmembrane tyrosine phosphatase that is required for normal T cell recep... more The CD45 protein is a transmembrane tyrosine phosphatase that is required for normal T cell receptor (TCR)-mediated signaling. A chimeric complementary DNA encoding the intracellular enzymatically active portion of murine CD45 preceded by a short amino-terminal sequence from p60c-src was transfected into CD45- T cells. Expression of this chimeric protein corrected most of the TCR signaling abnormalities observed in the absence of CD45, including TCR-mediated enhancement of tyrosine kinase activity and Ca2+ flux. Thus, the enzymatically active intracellular portion of CD45 is sufficient to allow TCR transmembrane signaling.
Progress in Nucleic Acid Research and Molecular Biology, 2000
This article reviews our current knowledge of the role of ribosomal protein S6 phosphorylation an... more This article reviews our current knowledge of the role of ribosomal protein S6 phosphorylation and the S6 kinase (S6K) signaling pathway in the regulation of cell growth and proliferation. Although 40S ribosomal protein S6 phosphorylation was first described 25 years ago, it only recently has been implicated in the translational up-regulation of mRNAs coding for the components of protein synthetic apparatus. These mRNAs contain an oligopyrimidine tract at their 5' transcriptional start site, termed a 5'TOP, which has been shown to be essential for their regulation at the translational level. In parallel, a great deal of information has accumulated concerning the identification of the signaling pathway and the regulatory phosphorylation sites involved in controlling S6K activation. Despite this knowledge we are only beginning to identify the direct upstream elements involved in growth factor-induced kinase activation. Use of the immunosupressant rapamycin, a bacterial macrolide, in conjunction with dominant interfering and activated forms of S6K1 has helped to establish the role of this signaling cascade in the regulation of growth and proliferation. In addition, current studies employing the mouse as well as Drosophila melanogaster have provided new insights into physiological function of S6K in the animal. Deletion of the S6K1 gene in mouse cells led to an animal of reduced size and the identification of the S6K1 homolog, S6K2, whereas loss of dS6K function in Drosophila demonstrated its paramount importance in development and growth control.