David G. Blake scite author profile

CDK2 inhibitors have been proposed as effective anti-cancer therapeutics. We show here that CYC202 (R-roscovitine) is a potent inhibitor of recombinant CDK2/cyclin E kinase activity (IC 50 ‫؍‬ 0.10 M) with an average cytotoxic IC 50 of 15.2 M in a panel of 19 human tumour cell lines, and we also demonstrate selectivity for rapidly proliferating cells over non-proliferating cells. A study of the cell cycle effects of CYC202 in Lovo colorectal carcinoma cells showed that the major effect was not the predicted arrest in one part of the cycle, but rather an induction of cell death from all compartments of the cell cycle. The maximum tolerated dose given intravenously to mice was in excess of 20 mg/kg. Doses up to 2,000 mg/kg were tolerated when administered orally in mice. Following repeated intraperitoneal administration (3 times daily for 5 days) of 100 mg/kg to nude mice bearing the Lovo human colorectal tumour, CYC202 induced a significant antitumour effect with a 45% reduction in tumour growth compared to controls. A second experiment using the human uterine xenograft MESSA-DX5 treated with orally administered CYC202 (500 mg/kg 3 times daily for 4 days) also exhibited a significant reduction in the rate of growth of the tumour (62%). These data, showing enzyme and cellular potency together with antitumour activity, confirm the potential of CDK2 inhibitors such as CYC202 as anticancer drugs. © 2002 Wiley-Liss, Inc. Key words: cyclin-dependent kinase inhibitors; CYC202; roscovitine; cell cycle; anti-tumour efficacyCyclin-dependent kinases (CDKs) are key regulators in the process of cell cycle progression. 1 These enzymes are activated by periodic formation of complexes with cyclins, which are proteins that are present only at specific stages of the cell cycle. CDK4 and CDK6, coupled with their partner cyclin D, are responsible for progression through G1, whereas CDK2 in combination with cyclin E is responsible for normal progression from G1 into S phase. CDK2/cyclin A is required for progression through S phase, and CDK1/cyclin B is necessary for mitosis to occur. 2 These CDK/ cyclin complexes are regulated in turn by stoichiometric association with small proteins, cyclin-dependent kinase inhibitors (CDKIs), such as p19, p16, p15, p21 and p27, which are members of the INK4 and WAF1/KIP1 class of CDK inhibitor. Mutation and/or deletion of some of these CDKIs has been shown in many human neoplasias. 3 Hence control of the cell cycle through CDKs, by means of small molecule CDK inhibitors, has been of great interest as a novel cancer treatment strategy. Questions remain, however, regarding the importance of CDK selectivity for this type of agent. Both CDK2 and CDK4 have been targeted for small molecule inhibitor development, and recent results suggest that CDK2 antagonists may induce apoptosis selectively in transformed cells regardless of p53 status, 4 while the function of CDK4 has now been linked to modulation of the rate of cellular growth and has been suggested to be (in Drosophila at least) dispensable for cel...

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A Quantitative Study of the in Vitro Binding of the C-Terminal Domain of p21 to PCNA: Affinity, Stoichiometry, and Thermodynamics

Zheleva

Zhelev

Fischer

et al. 2000

Biochemistry

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Proliferating cell nuclear antigen (PCNA) plays an essential role in DNA replication, repair, and control of cell proliferation, and its activity can be modulated by interaction with p21(Waf1/Cip1) [Cox, L. S., (1997) Trends Cell Biol. 7, 493-497]. This protein-protein interaction provides a particularly good model target for designing therapeutic agents to treat proliferative disorders such as cancer. In this study, the formation of complexes between PCNA and peptides derived from the C-terminus of p21 has been investigated at the molecular level and quantified using a competitive PCNA binding assay and isothermal titration calorimetry (ITC). The affinity constant for the interaction between p21 (141-160) peptide and PCNA has been determined to be 1.14 x 10(7) M(-)(1), corresponding to a K(d) of 87.7 nM. Measurement of the interaction of truncation and substitution analogues based on the p21 (141-160) sequence with PCNA revealed that the N-terminal part (residues 141-152) of the above peptide is the minimum recognition motif, required for PCNA binding. Truncation of the C-terminal region p21 (153-160), though, inhibited significantly the ability of the peptides to compete with the full-length p21 (141-160) for binding to PCNA. Alanine mutation of Met 147 or Asp 149 completely abolished or significantly decreased, respectively, the level of the PCNA binding and the inhibition of SV40 DNA replication. Comparison of the data obtained by the competitive PCNA binding assay and the ITC measurements demonstrated the usefulness of this assay for screening for compounds that could modulate the PCNA-p21 interaction. Using this assay, we have screened rationally designed peptides for binding to PCNA and interruption of the PCNA-p21 (141-160) complex. As a result of this screening, we have identified a 16-residue peptide (consensus motif 1 peptide) with the following sequence: SAVLQKKITDYFHPKK. Consensus motif 1 peptide and p21 (141-160) have similar affinities for binding PCNA and abilities to inhibit in vitro replication of DNA originated from SV40. Such peptides could prove useful in assessing p21-mimetic strategies for cancer treatment.

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Regulation of human γ-glutamylcysteine synthetase: co-ordinate induction of the catalytic and regulatory subunits in HepG2 cells

et al. 1997

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We have shown that in HepG2 cells treatment with 75 microM t-butylhydroquinone (tBHQ) results in a 2.5-fold increase in glutathione concentration, as part of an adaptive response to chemical stress. In these cells the elevation in intracellular glutathione level was found to be accompanied by an increase of between 2-fold and 3-fold in the level of the 73 kDa catalytic subunit of gamma-glutamylcysteine synthetase (heavy subunit, GCSh) and the 31 kDa regulatory subunit (light subunit, GCSl). Levels of GCSh and GCSl mRNA were increased by up to 5-fold in HepG2 cells in response to tBHQ. To study the transcriptional regulation of GCSl, we subcloned 6.7 kb of the upstream region of the human GCSl gene (GLCLR) from a genomic clone isolated from a P1 lymphoblastoid cell line genomic library. HepG2 cells were transfected with GLCLR promoter reporter constructs and treated with tBHQ. This resulted in an induction of between 1.5-fold and 3.5-fold in reporter activity, indicating that transcriptional regulation of GLCLR is likely to contribute to the induction of GCSl by tBHQ in HepG2 cells. Sequence analysis of the promoter region demonstrated the presence of putative enhancer elements including AP-1 sites and an antioxidant-responsive element, which might be involved in the observed induction of the GLCLR promoter.

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Discovery and Characterization of 2-Anilino-4- (Thiazol-5-yl)Pyrimidine Transcriptional CDK Inhibitors as Anticancer Agents

Wang

Griffiths

Midgley

et al. 2010

Chemistry & Biology

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David G. Blake

In vitro and in vivo antitumor properties of the cyclin dependent kinase inhibitor CYC202 (R‐roscovitine)

A Quantitative Study of the in Vitro Binding of the C-Terminal Domain of p21 to PCNA: Affinity, Stoichiometry, and Thermodynamics

Regulation of human γ-glutamylcysteine synthetase: co-ordinate induction of the catalytic and regulatory subunits in HepG2 cells

Discovery and Characterization of 2-Anilino-4- (Thiazol-5-yl)Pyrimidine Transcriptional CDK Inhibitors as Anticancer Agents

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