Discovery of imidazole vinyl pyrimidines as a novel class of kinase inhibitors which inhibit Tie-2 and are orally bioavailable.

Tie-2 is a receptor tyrosine kinase which is involved in angiogenesis and thereby growth of human tumours. The discovery and SAR of a novel class of imidazole-vinyl-pyrimidine kinase inhibitors, which inhibit Tie-2 in vitro is reported. Their synthesis was carried out by condensation of imidazole aldehydes with methyl pyrimidines. These compounds are lead-like, with low molecular weight, good physical properties and oral bioavailability.

A phase I pharmacodynamic study of the effects of the cyclin-dependent kinase-inhibitor AZD5438 on cell cycle markers within the buccal mucosa, plucked scalp hairs and peripheral blood mononucleocytes of healthy male volunteers.

PURPOSE: AZD5438 is a novel, orally bioavailable, cyclin-dependent kinase (CDK) inhibitor demonstrating preclinical pharmacodynamic (PD) effects on CDK substrates and active growth inhibition of human tumour xenografts. Clinical pharmacokinetic (PK) data shows its plasma t1/2 to be 1-3 h. The main purpose of the current study was to evaluate PD activity of single oral doses of AZD5438 in healthy volunteers. Twelve healthy male subjects received 10, 40 or 60 mg AZD5438 or placebo in a rotating placebo crossover study design. Rapidly proliferating normal tissues [buccal mucosa, peripheral blood mononucleocytes (PBMCs) and plucked scalp hair] were sampled pre-dosing, 1.5 h (tmax), +/-6 h post-dosing. The primary PD endpoint, phospho-retinoblastoma protein (pRb) levels in buccal biopsies (unit length labelling index) assessed by immunohistochemistry, was used as a biomarker of CDK activity. RESULTS: Phospho-pRb levels were demonstrated to decrease in an epitope, dose- and time-dependent manner. Statistically significant reductions in the ratio phospho-pRb/total pRb were detected at 1.5 h post-dose compared to placebo for both 40 mg [S807-S811 epitope geometric least-squares mean (glsmean) ratio = 0.75, P = 0.014] and 60 mg AZD5438 (S807-S811 epitope glsmean ratio = 0.74, P = 0.011; T821 epitope glsmean ratio = 0.72, P = 0.031). No statistically significant differences were noted at 6 h post-dosing, indicating a close PK-PD relationship between AZD5438 and target inhibition. No effects attributable to AZD5438 were detectable on phospho-p27, p27, Ki67 in the buccal mucosa; or on phospho-pRb (S249-T252 epitope), phospho-p27 or Ki67 in the sheath cells of plucked scalp hair, raising issues about the appropriateness of different detection methods/tissues for use as PD biomarkers. In ex vivo stimulated PBMCs, statistically and near-statistically significant anti-proliferative effects, with the suggestion of a dose-response effect, were noted on the incorporation of [3H]-thymidine (stimulated/non-stimulated) at 10, 40 and 60 mg, compared to placebo, at 1.5 h post-dosing (glsmean ratio = 0.65, P = 0.019; 0.70, P = 0.056; 0.51, P = 0.001, respectively). CONCLUSIONS: The modest PD effect, short plasma t1/2 and close PK-PD relationship suggest that multiple daily dosing or sustained release formulations at higher doses will be necessary for AZD5438 to achieve sustained inhibition of CDK in human cancers.

The cellular phenotype of AZ703, a novel selective imidazo[1,2-a]pyridine cyclin-dependent kinase inhibitor.

Because the majority of cancers exhibit direct or indirect deregulation of cyclin-dependent kinase (CDK) function, members of the CDK family are attractive targets for the development of anticancer agents. As part of an ongoing program, novel imidazopyridines were identified and developed as potent and selective CDK inhibitors. Here, we describe data on the in vitro biological activities of one of these compounds, AZ703. The selectivity profile of AZ703 was investigated in kinase assays against a range of CDK enzymes as well as a panel of protein kinases in vitro. IC50s were assessed against different tumor cell lines in vitro. The mechanism of action of AZ703 was determined by observing changes in phosphorylation of CDK substrates and cell cycle effects on tumor and normal cells. In vitro studies revealed that AZ703 is a selective inhibitor of CDK1 and CDK2 and displays a mode of action consistent with the induction of G1-, S-, and G2-M-phase arrest. AZ703 also showed potent antiproliferative activity across a wide range of tumor cell lines in vitro. Moreover, AZ703 induced reversible blockade of normal cells while causing tumor cells to undergo apoptosis. We have identified AZ703 as a novel selective imidazo[1,2-a]pyridine CDK inhibitor that shows promising antitumor properties in vitro.

AZD5438, a potent oral inhibitor of cyclin-dependent kinases 1, 2, and 9, leads to pharmacodynamic changes and potent antitumor effects in human tumor xenografts.

Deregulation of the cell cycle has long been recognized as an essential driver of tumorigenesis, and agents that selectively target key cell cycle components continue to hold promise as potential therapeutics. We have developed AZD5438, a 4-(1-isopropyl-2-methylimidazol-5-yl)-2-(4-methylsulphonylanilino) pyrimidine, as a potent inhibitor of cyclin-dependent kinase (cdk) 1, 2, and 9 (IC(50), 16, 6, and 20 nmol/L, respectively). In vitro, AZD5438 showed significant antiproliferative activity in human tumor cell lines (IC(50) range, 0.2-1.7 micromol/L), causing inhibition of the phosphorylation of cdk substrates pRb, nucleolin, protein phosphatase 1a, and RNA polymerase II COOH-terminal domain and blocking cell cycling at G(2)-M, S, and G(1) phases. In vivo, when orally administered at either 50 mg/kg twice daily or 75 mg/kg once daily, AZD5438 inhibited human tumor xenograft growth (maximum percentage tumor growth inhibition, range, 38-153; P < 0.05). In vivo, AZD5438 reduced the proportion of actively cycling cells. Further pharmacodynamic analysis of AZD5438-treated SW620 xenografts showed that efficacious doses of AZD5438 (>40% tumor growth inhibition) maintained suppression of biomarkers, such as phospho-pRbSer(249)/Thr(252), for up to 16 hours following a single oral dose. A comparison of different schedules indicated that chronic daily oral dosing provided optimal cover to ensure antitumor efficacy. These data indicate that broad cdk inhibition may provide an effective method to impair the dysregulated cell cycle that drives tumorigenesis and AZD5438 has the pharmacologic profile that provides an ideal probe to test this premise.