Protein kinase C inhibitors arrest the C6 glioma cell cycle at a mid-G1 phase restriction point: Implications for the antiproliferative action of valproate

O'Brien, Evelyn; Regan, Ciaran M.

doi:10.1016/s0887-2333(97)00103-3

Cited by 6 publications

(7 citation statements)

References 27 publications

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“…Significant levels of cyclin D3 were detected in the mid‐G1 phase in VPA‐exposed cells, whereas normally the expression of this protein is very low or undetectable at this time (Figs 3a and 1c). Furthermore, the most prominent increase in cyclin D3 expression occurred at 5–6 h after mitotic selection, precisely coinciding with the known restriction point of VPA in the G1 phase (Martin and Regan 1991; O'Brien and Regan 1998). In repeated experiments VPA did not reproducibly affect PCNA, cyclin D1, cdk4 or kip1/p27 expression in the mid‐G1 phase (Figs 3b–e).…”

Section: Resultsmentioning

confidence: 53%

“…The antiproliferative action of VPA is known to occur at a defined restriction point in the mid-G1 phase (5-6 h in C6 glioma) and similar IC 50 values are observed over a wide variety of cell types, including fibroblasts, glia and neuroblastoma (Regan 1985;Regan 1988, 1991;Regan et al 1990;Courage-Maguire et al 1997;O'Brien and Regan 1998;Skladchikova et al 1998;Walmod et al 1998). This VPA restriction point is distinguished from those induced by either serum or growth factor deprivation, which occur later in the G1 phase (Pardee 1989).…”

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confidence: 82%

“…This VPA restriction point is distinguished from those induced by either serum or growth factor deprivation, which occur later in the G1 phase (Pardee 1989). VPA-arrested cells assume a differentiated phenotype, as evidenced by changes in cell-substratum adhesivity, morphology, motility and gene expression Regan 1988, 1991;Berezin et al 1996;O'Brien and Regan 1998;Walmod et al 1998). Moreover, the antiproliferative action of VPA is reversible upon drug washout at doses equivalent to the therapeutic range Regan 1988, 1991).…”

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confidence: 99%

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Antiproliferative action of valproate is associated with aberrant expression and nuclear translocation of cyclin D3 during the C6 glioma G1 phase

Bacon

Gallagher

Haughey

et al. 2002

Journal of Neurochemistry

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Cell cycle progression is tightly regulated by cyclins, cyclindependent kinases (cdks) and related inhibitory phophatases. Here, we employed mitotic selection to synchronize the C6 glioma cell cycle at the start of the G1 phase and mapped the temporal regulation of selected cyclins, cdks and inhibitory proteins throughout the 12 h of G1 by immunoblot analysis. The D-type cyclins, D3 and D1, were differentially expressed during the C6 glioma G1 phase. Cyclin D1 was up-regulated in the mid-G1 phase (4-6 h) while cyclin D3 expression emerged only in late G1 (9-12 h). The influence of the anticonvulsant agent valproic acid (VPA) on expression of cyclins and related proteins was determined, since its teratogenic potency has been linked to cell cycle arrest in the mid-G1 phase. Exposure of C6 glioma to VPA induced a marked up-regulation of cyclin D3 and decreased expression of the proliferating cell nuclear antigen. In synchronized cell populations, increased expression of cyclin D3 by VPA was detected in the mid-G1 phase (3-5 h). Immunocytochemical localization demonstrated rapid intracellular translocation of cyclin D3 to the nucleus following VPA exposure, suggesting that VPA-induced cell cycle arrest may be mediated by precocious activation of cyclin D3 in the G1 phase. Keywords: anticonvulsant, cell cycle, mitotic selection, synchronization, teratogen, valproic acid. Passage of cells through the cell cycle is a highly ordered process involving the sequential activation of different cyclin/cyclin-dependent kinase (cdk) complexes (reviewed in Sherr 1993). At a molecular level, this process mainly depends on the temporal synthesis and degradation of cyclin proteins, modification of the kinase subunits by phosphorylation-dephosphorylation, and subcellular translocation of cyclin-cdk complexes (reviewed in Nasmyth 1996; Arellano and Moreno 1997; Yang and Kornbluth 1999). While celltype specificities exist, generally the D-and E-type cyclin proteins are believed to control progression through the G1 phase, while A-and B-type cyclins regulate cycling from S phase through G2 and into M phase.The progression of proliferating cells through the G1 phase and their transition into S phase is a complex process that may involve integration with other cell fates such as differentiation, quiescence and apoptosis. In both yeast and mammalian systems, as cells cycle through the G1 phase they may encounter several temporally distinct restriction points determined by extraneous factors, and these influence their transition into S phase (reviewed in Pardee 1989). In various cell types, important regulators of passage through G1 include three D-type cyclin proteins (D1, D2 and D3), which form holoenzymes with either cdk4 or cdk6, and cyclin E which complexes with cdk2 (reviewed in Sherr 1993; Reed 1997). To date there is little understanding of how cyclin proteins are involved in the regulation of cell cycle restriction points. However, recent evidence indicates that antiproliferative agents, including cyclic AMP and prostaglan...

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Section: Resultsmentioning

confidence: 53%

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confidence: 82%

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confidence: 99%

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Antiproliferative action of valproate is associated with aberrant expression and nuclear translocation of cyclin D3 during the C6 glioma G1 phase

Bacon

Gallagher

Haughey

et al. 2002

Journal of Neurochemistry

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“…Although classical binding sites are unknown for VPA and inhalational anesthetics [11,15], they share many common molecular actions. Both are analogous in that they exhibit stereoisomerism, an antiproliferative action in the G1 phase of the cell cycle, and indirectly inhibit the regulatory domain of protein kinase C which plays a pivotal role in the regulation of cell proliferation and dierentiation and in malformations of development [1,7,12,18,21,22]. To explore this commonality further, in respect of the relative potential of iso¯urane, en¯urane and sevo¯urane to induce developmental malformations, we compared their antiproliferative actions to those of valproate, a known human teratogen.…”

Section: Introductionmentioning

confidence: 99%

Antiproliferative actions of inhalational anesthetics: comparisons to the valproate teratogen

O’Leary

Bacon

Odumeru

et al. 2000

Intl J of Devlp Neuroscience

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The antiproliferative potential of the volatile anesthetics isoflurane, enflurane and sevoflurane was determined and compared to the valproate teratogen. The in vitro system employed, a G1 phase proliferative arrest endpoint in C6 glioma, has served previously to discriminate agents with known teratogenic potential in vivo. Based on estimated IC(50) values that were within twice the estimated minimum aveolar concentration value, the rank antiproliferative potency of the inhalational anesthetics employed was isoflurane=enflurane>>sevoflurane. Flow cytometric analysis of growth-arrested cell populations failed to reveal specific accumulation in any cell cycle phase and the lack of a G1 phase-specific effect was confirmed by the absence of a transient, time-dependent sialylation event in synchronized cells. The antiproliferative mechanism of volatile anesthetics, and valproate, was mediated at hydrophobic binding sites, as increasing the hydration sphere of the drug-micelle complex, using the hygroscopic qualities of the dimethylsulfoxide vehicle, completely reversed this effect. Our findings suggest inhalational anesthetics lack the specific in vitro characteristics of the valproate teratogen.

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“…Embryos of mice exposed to high doses of VPA reproducibly show exencephaly -a neural tube defect closely related to the neural tube malformations seen in human embryos exposed to VPA in utero (Kao et al 1981;Bjerkedal et al 1982;Robert and Guibaud 1982;Nau 1986a,b;Turner et al 1990). Although the molecular mechanisms underlying this in vivo teratogenicity are unknown, it is clear that they directly relate to the antiproliferative/pro-differentiative potency of VPA, which can be detected in vitro in various cell types (Regan 1985;Martin and Regan 1991;O'Brien and Regan 1998). This antiproliferative action occurs at a defined restriction point in the G1 phase and appears to be mediated by the alteration of temporal signal transduction events that are required for passage through the G1 phase of the cell cycle, including glycoprotein sialylation and cyclin D3 expression (Martin and Regan 1991;Bacon et al 1997Bacon et al , 2002.…”

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confidence: 99%

Differential enantioselective effects of pentyl‐4‐yn‐valproate on spatial learning in the rat, and neurite outgrowth and cyclin D3 expression in vitro

O'Loinsigh

Gherardini

Gallagher

et al. 2003

Journal of Neurochemistry

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Previously, we demonstrated the racemic form of the valproate (VPA) analogue, 2-n-pentyl-4-pentynoic acid ([±]pentyl-4-yn-VPA), to be neuritogenic in vitro and to enhance cognition in vivo. To determine the enantioselectivity of these effects, the racemate and purified enantiomers of [±]pentyl-4-yn-VPA (84 mg/kg, i.p.) were administered to rodents 20 min prior to multi-session water maze training. The racemate and R-enantiomer significantly reduced escape latencies during water maze learning and enhanced its recall in a probe trial 3 days later. In contrast, S-pentyl-4-yn-VPA did not influence these behavioural parameters. The enantiomerspecific effects of [±]pentyl-4-yn-VPA were further discriminated in vitro using neuro 2A neuroblastoma and C6 glioma cell lines. In neuro 2A, the S-enantiomer induced profound neurite outgrowth at concentrations up to 0.5 mM, with the R-enantiomer and racemate being less neuritogenic. Immunoblot analysis of cyclin D3 expression in C6 glioma indicated the racemate and S-pentyl-4-yn-VPA to induce dosedependent up-regulation of this protein, similar to that associated with G1-phase cell cycle arrest mediated by VPA, whereas R-pentyl-4-yn-VPA was without effect. These results indicate that the cognition-enhancing effects of pentyl-4-yn-VPA are due to the actions of the R-enantiomer, and that cyclin D3 up-regulation and associated anti-proliferative and pro-differentiative actions are predominantly associated with the S-enantiomer.

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Protein kinase C inhibitors arrest the C6 glioma cell cycle at a mid-G1 phase restriction point: Implications for the antiproliferative action of valproate

Cited by 6 publications

References 27 publications

Antiproliferative action of valproate is associated with aberrant expression and nuclear translocation of cyclin D3 during the C6 glioma G1 phase

Antiproliferative action of valproate is associated with aberrant expression and nuclear translocation of cyclin D3 during the C6 glioma G1 phase

Antiproliferative actions of inhalational anesthetics: comparisons to the valproate teratogen

Differential enantioselective effects of pentyl‐4‐yn‐valproate on spatial learning in the rat, and neurite outgrowth and cyclin D3 expression in vitro

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