EC:2.7.11.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Disrupting the cell cycle through the inhibition of cyclin-dependent kinases (CDKs) is an important therapeutic strategy in the treatment of cancer. Flavopiridol is the first CDK inhibitor to be tested in clinical trials. It has been shown to cause cell cycle arrest, induce apoptosis, inhibit angiogenesis, and potentiate the effects of chemotherapy. In this review, the rationale for using a CDK inhibitor as therapy for breast cancer is described and the preclinical studies performed with flavopiridol in breast cancer cell lines are highlighted. Flavopiridol is currently undergoing phase II testing as monotherapy and phase I and/or II evaluation in combination with traditional chemotherapy agents. The assessment of CDK inhibition as evidence of flavopiridol's targeted effect in serial biopsies of tumor and surrogate tissues is also under investigation in these protocols. The interruption of the cell cycle through modulation of CDKs with an agent such as flavopiridol has potential therapeutic efficacy, especially in combination with chemotherapy.
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PMID:Review of flavopiridol, a cyclin-dependent kinase inhibitor, as breast cancer therapy. 1213 1

The cell cycle regulatory protein cyclin D1, which is over-expressed in 95-100% of mantle cell lymphomas (MCL), is a potential therapeutic target. Flavopiridol inhibits the cyclin-dependent kinase (CDK)4-cyclin D1 complex and induces apoptosis in lymphoma cell lines. Previous phase I clinical studies had demonstrated that this drug could be safely administered in humans, prompting further evaluation of flavopiridol as a single agent in MCL. Ten patients with relapsed or refractory MCL, who had received one prior chemotherapy regimen, were treated with flavopiridol 50 mg/m2/day given as a 72 h continuous intravenous infusion every 14 days. Treatment was well tolerated, and only one patient developed grade III-IV non-hematologic toxicity. However, there were no clinical responses; despite therapy, three patients maintained stable disease, and seven patients demonstrated progressive disease within two months. In relapsed and refractory MCL, flavopiridol is ineffective as a single agent given by 72 h continuous infusion at 50 mg/m2/day. Recent in vitro studies using human plasma suggest that higher plasma drug levels may be necessary to achieve clinical efficacy. In vitro studies of flavopiridol indicate that the agent is synergistic with DNA-damaging compounds. Further investigation into flavopiridol as a clinical agent should focus on alternative dosing schedules and the compound's potential use in combination chemotherapeutic regimens.
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PMID:Seventy-two hour continuous infusion flavopiridol in relapsed and refractory mantle cell lymphoma. 1215 66

Flavopiridol is an inhibitor of cyclin-dependent kinase, a key regulator of cell cycle, and is currently under clinical trials. We developed and validated an HPLC assay method for the quantitation of flavopiridol in human plasma samples. The sample preparation consisted of protein precipitation with acetonitrile. Separation was accomplished on a C(18) column and a C(18) precolumn insert utilizing a gradient profile consisting of ammonium acetate and methanol. Ultraviolet detection was set at 268 nm for flavopiridol and 323 nm for umbelliferone, the internal standard. The method was validated over flavopiridol concentration range of 0.025-3.0 microg/mL using 250 microL of plasma. The assay was linear over this concentration range with a coefficient of variation less than 10% for inter- and intra-assay. The retention times were around 6.2 min for umbelliferone and 9.8 min for flavopiridol. The recoveries of flavopiridol and umbelliferone were 88.6 +/- 1.0% and 97.1 +/- 3.7%, respectively. This method is suitable for quantifying flavopiridol in plasma samples and further characterizing the clinical pharmacology of this compound.
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PMID:A high-performance liquid chromatography method using ultraviolet detection for the quantitation of flavopiridol from human plasma. 1222 93

Flavopiridol is a synthetic flavone that inhibits tumor growth by suppressing cyclin-dependent kinases (CDKs). We have investigated effects of flavopiridol in oral squamous cell carcinoma (OSCC). Flavopiridol was found to inhibit the growth of OSCC cells in a time- and dose-dependent manner. Induction of apoptosis was observed in all cells showing accumulated cells with sub-G(1) DNA contents, DNA fragmentations, and PARP cleavages. While Bcl-2 and Bax expression did not change, Bcl-x(L) was down regulated and Bcl-xs was up-regulated after being exposed to flavopiridol. Flavopiridol treatments also resulted in remarkable reductions of cyclin A, cyclin B, and cyclin D1 expressions. We also found that expression levels of CDK activation kinase and CDC25C were reduced, and p34 inactive form CDK2 were up-regulated. Our data indicate that flavopiridol has growth inhibition activities against OSCC. Flavopiridol not only inhibits CDKs directly, but it also inhibits the CDKs activation pathway and activates the Bcl-x apoptotic pathway.
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PMID:Flavopiridol, a cyclin dependent kinase (CDK) inhibitor, induces apoptosis by regulating Bcl-x in oral cancer cells. 1245 21

Flavopiridol is one of the first cyclin-dependent kinase inhibitors undergoing clinical tests. We found that the combination treatment of flavopiridol (100-500 nM) with tumor necrosis factor (TNF)-alpha (10 ng/ml) induced a rapid and eminent apoptosis, 20 +/- 5% in 6-h treatment, in a human non-small cell lung carcinoma cell line, A549, as determined by the increase of sub-G(1) fraction in flow cytometry. A similar observation was also made in human colon cancer cell lines, HCT-116 and HCT-15, but not in Rat2, a rat fibroblast cell line. In A549 cells, the cytotoxic synergy by the combination treatment involved the activation of caspase-1, caspase-3, and caspase-8 and generated huge chromosomal degradation. The treatment schedules were so important that only the treatments of flavopiridol concomitantly with or followed by TNF-alpha showed the pronounced apoptosis in A549 cells. Prior treatment of TNF-alpha inhibited the apoptosis by the following combination treatment, leading to little cell death. Yet, such inhibition was reversed when 100 microM of 5,6-dichloro-1-beta-D-ribofuranosyl-benzimidazole, a transcription inhibitor, was present during the TNF-alpha pretreatment, suggesting that the inhibitory pretreatment of TNF-alpha might involve antiapoptotic gene expression at the transcriptional level. TNF-alpha treatment resulted in nuclear factor (NF)-kappa B activation, revealed by NF-kappa B activity reporter assay. In contrast, flavopiridol was found to inhibit the NF-kappa B-dependent gene transcription, which might give an explanation for the synergistic effect of flavopiridol with TNF-alpha. TNF-related apoptosis-inducing ligand (TRAIL; 100 ng/ml) also caused a rapid and strong cytotoxic synergy with flavopiridol. In contrast to TNF-alpha, however, all of the treatment sequences supported the synergy by TRAIL and flavopiridol. The combination of flavopiridol with TNF-alpha or TRAIL may be of use for the development in cancer therapy.
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PMID:Rapid induction of apoptosis by combination of flavopiridol and tumor necrosis factor (TNF)-alpha or TNF-related apoptosis-inducing ligand in human cancer cell lines. 1256 5

Flavopiridol, a cyclin-dependent kinase (cdk) inhibitor, can cause cell cycle arrest, induce apoptosis in cancer cells, and inhibit tumor cell growth in vivo. The present study investigated the in vitro radiosensitizing effect of flavopiridol and the underlying molecular mechanisms in a murine ovarian cancer cell line, OCA-I. Flavopiridol inhibited cell growth in a dose-dependent manner and enhanced cell radiosensitivity assessed by the clonogenic cell survival assay. A flavopiridol dose of 300 nM, given for 1 day, enhanced radiosensitivity by a factor of 2.1. Clonogenic cell survival after split-dose radiation showed that flavopiridol inhibited repair from radiation damage. In addition, flavopiridol treatment (300 nM, 1 day) resulted in decreased levels of Ku70 and Ku86 proteins that play a role in DNA repair processes, suggesting that DNA repair processes may have been disrupted by this agent. Flow cytometry analysis showed that flavopiridol (300 nM, 1 day) accumulated the cells in G(1) and G(2) phases, with a significant reduction in the S phase component. This cell cycle redistribution is likely another mechanism underlying flavopiridol-induced cell radiosensitivity. Flavopiridol down-regulated cyclin D1 and cyclin E protein levels and also inhibited phosphorylation of retinoblastoma protein, which is inconsistent with the observed cell cycle arrest. Among the cdks tested, cdk-9, the catalytic subunit of positive transcription elongation factor b, was significantly down-regulated by flavopiridol, suggesting that flavopiridol may modulate cellular transcription processes. Furthermore, flavopiridol on its own induced apoptosis in the OCA-I cells, whereas in combination with radiation, exerted no additional increase in apoptosis. Taken together, our data show that flavopiridol strongly augmented the response of ovarian carcinoma cells to radiation and that the underlying mechanisms included inhibition of sublethal DNA damage repair and cell cycle redistribution. At the molecular level, transcriptional regulation by flavopiridol may have been involved.
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PMID:Flavopiridol, a cyclin-dependent kinase inhibitor, enhances radiosensitivity of ovarian carcinoma cells. 1281 Jun 57

Abnormalities in the cell cycle are responsible for the majority of human neoplasias. Most abnormalities occur due to hyperphosphorylation of the tumor suppressor gene Rb by the key regulators of the cell cycle, the cyclin-dependent kinases (CDKs). Thus, a pharmacological CDK inhibitor may be useful in the prevention and/or treatment of human neoplasms. Flavopiridol is a flavonoid with interesting preclinical properties: (1) potent CDK inhibitory activity; (2) it depletes cyclin D1 and vascular endothelial growth factor mRNA by transcriptional and posttranscriptional mechanisms, respectively; (3) it inhibits positive elongation factor B, leading to transcription "halt"; and (4) it induces apoptosis in several preclinical models. The first phase I trial of a CDK inhibitor, flavopiridol, has been completed. Dose-limiting toxicities included secretory diarrhea and proinflammatory syndrome. Antitumor activity was observed in some patients with non-Hodgkin's lymphoma and renal, colon, and prostate cancers. Concentrations between 300 and 500 n M-necessary to inhibit CDK-were achieved safely. Phase II trials with infusional flavopiridol and phase I infusional trials in combination with standard chemotherapy are being completed with encouraging results. A novel phase I trial of 1-h flavopiridol administration was recently completed. The maximum tolerated doses using flavopiridol daily for 5, 3, and 1 consecutive days are 37.5, 50, and 62.5 mg/m(2) per day. Dose-limiting toxicities include vomiting, neutropenia, proinflammatory syndrome, and diarrhea. Plasma flavopiridol concentrations achieved were in the range 1.5-3.5 MICRO M. Phase II/III trials using this 1-h schedule in several tumor types including non-small-cell lung cancer, chronic lymphocytic leukemia, mantle cell lymphoma, and head and neck cancer are being conducted worldwide. UCN-01, the second CDK modulator that has entered clinical trials, has unique preclinical properties: (1) it inhibits protein kinase C (PKC) activity; (2) it promotes cell-cycle arrest by accumulation in p21/p27; (3) it induces apoptosis in several preclinical models; and (4) it abrogates the G(2) checkpoint by inhibition of chk1. The last of these represents a novel strategy to combine UCN-01 with DNA-damaging agents. In the initial UCN-01 clinical trial (continuous infusion for 72 h), a prolonged half-life of about 600 h (100 times longer than in preclinical models) was observed. The maximum tolerated dose was 42.5 mg/m(2) per day for 3 days. Dose-limiting toxicities were nausea/vomiting, hypoxemia, and symptomatic hyperglycemia. One patient with melanoma achieved a partial response (8 months). Another patient with refractory anaplastic large-cell lymphoma had no evidence of disease at >4 years. Bone marrow and tumor samples obtained from some patients revealed loss in adducin phosphorylation, a substrate of PKC. Phase I trials with shorter infusions are being completed. In summary, the first two CDK modulators have shown encouraging results in early clinical trials. A question that remains unanswered is "Which is the best schedule for combination with standard antitumor agents?" Moreover, it is still unclear which pharmacodynamic endpoint reflects loss of CDK activity in tissue samples from patients in these trials. Despite these caveats, we feel that CDKs are sensible targets for cancer therapy and that there are several small-molecule CDK modulators in clinical trials with encouraging results.
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PMID:Novel direct and indirect cyclin-dependent kinase modulators for the prevention and treatment of human neoplasms. 1281 36

Interactions between proteasome and cyclin-dependent kinase inhibitors have been examined in human leukemia cells in relation to induction of apoptosis. Simultaneous exposure (24 h) of U937 myelomonocytic leukemia cells to 100 nM flavopiridol and 300 nM MG-132 resulted in a marked increase in mitochondrial injury (cytochrome c, Smac/DIABLO release, loss of deltaPsi(m)), caspase activation, and synergistic induction of cell death, accompanied by a marked decrease in clonogenic potential. Similar effects were observed with other proteasome inhibitors (e.g., Bortezomib (VELCADE trade mark bortezomib or injection), lactacystin, LLnL) and cyclin-dependent kinase inhibitors (e.g., roscovitine), as well as other leukemia cell types (e.g., HL-60, Jurkat, Raji). In U937 cells, synergistic interactions between MG-132 and flavopiridol were associated with multiple perturbations in expression/activation of signaling- and survival-related proteins, including downregulation of XIAP and Mcl-1, activation of JNK and p34(cdc2), and diminished expression of p21(CIP1). The lethal effects of MG-132/flavopiridol were not reduced in leukemic cells ectopically expressing Bcl-2, but were partially attenuated in cells ectopically expressing dominant-negative caspase-8 or CrmA. Flavopiridol/proteasome inhibitor-mediated lethality was also significantly diminished by agents and siRNA blocking JNK activation. Lastly, coadministration of MG-132 with flavopiridol resulted in diminished DNA binding of NF-kappaB. Notably, pharmacologic interruption of the NF-kappaB pathway (e.g., by BAY 11-7082, PDTC, or SN-50) or molecular dysregulation of NF-kappaB (i.e., in cells ectopically expressing an IkappaBalpha super-repressor) mimicked the actions of proteasome inhibitors in promoting flavopiridol-induced mitochondrial injury, JNK activation, and apoptosis. Together, these findings indicate that proteasome inhibitors strikingly lower the apoptotic threshold of leukemic cells exposed to pharmacologic CDK inhibitors, and suggest that interruption of the NF-kappaB cytoprotective pathway and JNK activation both play key roles in this phenomenon. They also raise the possibility that combining proteasome and CDK inhibitors could represent a novel antileukemic strategy.
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PMID:Proteasome inhibitors potentiate leukemic cell apoptosis induced by the cyclin-dependent kinase inhibitor flavopiridol through a SAPK/JNK- and NF-kappaB-dependent process. 1456 39

1. Cyclosporin A (CsA, 1-50 microM), an immunosuppressive drug with known neurotoxic effects, did not decrease the viability of primary cultures of rat cerebellar granule neurons (CGN) or induce apoptotic features. However, CsA specifically enhanced the cytotoxicity and apoptosis induced by colchicine (1 microM). 2. Flavopiridol, an inhibitor of cyclin-dependent kinases (CDKs), prevented the neurotoxic effects of colchicine plus CsA. At 0.1-5 microM, it also showed antiapoptotic effects, as revealed by propidium iodide staining, flow cytometry and counting of cell nuclei. 3. Roscovitine (25-50 microM), a selective cdk1, 2 and 5 inhibitor, showed an antiapoptotic effect against colchicine- and colchicine plus CsA-induced apoptosis. 4. CsA increased the expression of cdk5 and cdk5/p25 mediated by colchicine, a CDK involved in neuronal apoptosis. After treatment of CGN with colchicine plus CsA, the changes in the p25/p35 ratio pointed to cdk5 activation. 5. Immunohistochemical results showed a nuclear localization of cdk5 after neurotoxic treatment, which was prevented by cdk inhibitors. Thus, we propose a new mechanism of modulation of CsA neurotoxicity mediated by cdk5.
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PMID:Cyclosporin A enhances colchicine-induced apoptosis in rat cerebellar granule neurons. 1497 24

Interactions between the cyclin-dependent kinase (CDK) inhibitor flavopiridol and the proteasome inhibitor bortezomib were examined in Bcr/Abl(+) human leukemia cells. Coexposure of K562 or LAMA84 cells to subtoxic concentration of flavopiridol (150-200 nM) and bortezomib (5-8 nM) resulted in a synergistic increase in mitochondrial dysfunction and apoptosis. These events were associated with a marked diminution in nuclear factor kappaB (NF-kappaB)/DNA binding activity; enhanced phosphorylation of SEK1/MKK4 (stress-activated protein kinase/extracellular signal-related kinase 1/mitogen-activated protein kinase kinase 4), c-Jun N-terminal kinase (JNK), and p38 mitogen-activated protein kinase (MAPK); down-regulation of Bcr/Abl; and a marked reduction in signal transducer and activator of transcription 3 (STAT3) and STAT5 activity. In imatinib mesylate-resistant K562 cells displaying increased Bcr/Abl expression, bortezomib/flavopiridol treatment markedly increased apoptosis in association with down-regulation of Bcr/Abl and BclxL, and diminished phosphorylation of Lyn, Hck, CrkL, and Akt. Parallel studies were performed in imatinib mesylate-resistant LAMA84 cells exhibiting reduced expression of Bcr/Abl but a marked increase in expression/activation of Lyn and Hck. Flavopiridol/bortezomib effectively induced apoptosis in these cells in association with Lyn and Hck inactivation. The capacity of flavopiridol to promote bortezomib-mediated Bcr/Abl down-regulation and apoptosis was mimicked by the positive transcription elongation factor-b (P-TEFb) inhibitor DRB (5,6-dichloro 1-beta-d-ribofuranosylbenzinida-sole). Finally, the bortezomib/flavopiridol regimen also potently induced apoptosis in Bcr/Abl(-) human leukemia cells. Collectively, these findings suggest that a strategy combining flavopiridol and bortezomib warrants further examination in chronic myelogenous leukemia and related hematologic malignancies.
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PMID:Bortezomib and flavopiridol interact synergistically to induce apoptosis in chronic myeloid leukemia cells resistant to imatinib mesylate through both Bcr/Abl-dependent and -independent mechanisms. 1503 84

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