Racemic Evans’ oxazolidinones were efficiently resolved using a combination of quasi-enantiomeric profens. The levels of stereocontrol were high, giving products with predictable configurations.
The attenuated SN2 reactivity of the 2,2,2-trifluoroethyl group has been exploited for the synthesis of a series of 6-cyclohexylmethoxy-2-arylaminopurines in which a sulfonamide moiety was attached to the aryl ring via a methylene group. These were required as potential inhibitors of serine-threonine kinases of interest for the treatment of cancer. 3-Nitrophenylmethanesulfonyl chloride was converted into the corresponding 2,2,2-trifluoroethoxysulfonyl ester by reaction with 2,2,2-trifluoroethanol in the presence of triethylamine/4-dimethylaminopyridine. Catalytic hydrogenation of the nitro group employing 2,2,2-trifluoroethanol as solvent gave 2,2,2-trifluoroethyl 3-aminophenylmethanesulfonate, which was reacted with 6-cyclohexylmethoxy-2-fluoropurine in 2,2,2-trifluoroethanol/trifluoroacetic acid to afford 2,2,2-trifluoroethyl 3-(6-cyclohexylmethoxy-9H-purin-2-ylamino)phenylmethanesulfonate. 3-(6-Cyclohexylmethoxy-9H-purin-2-ylamino)phenylmethanesulfonamides were synthesised by microwave heating of the trifluoroethoxysulfonate with an amine and 1,8-diazabicycloundec-7-ene in tetrahydrofuran. The mechanism of this process was shown to involve an intermediate sulfene by a deuterium-labelling experiment. 3-(6-Cyclohexylmethoxy-9H-purin-2-ylamino)phenylmethanesulfonamide derivatives were assayed as inhibitors of human cyclin-dependent kinase 2. Previous structure–activity studies demonstrated that relocating the sulfonamide group of O6-cyclohexylmethoxy-2-(4′-sulfamoylanilino)purine from the 4- to the 3-position on the 2-arylamino ring resulted in a 40-fold reduction in potency against CDK2. In the present study, no further loss of activity was observed on introducing a methylene group between the sulfonamide and the aryl ring, 3-(6-cyclohexylmethoxy-9H-purin-2-ylamino)phenylmethanesulfonamide proving equipotent with O6-cyclohexylmethoxy-2-(3′-sulfamoylanilino)purine (IC50 = 0.21 μM). N-Alkylation of the sulfonamide reduced CDK-2 inhibitory activity, while a substituted benzyl or 3-phenylpropyl group on the sulfonamide resulted in a loss of potency compared with 3-(6-cyclohexylmethoxy-9H-purin-2-ylamino)phenylmethanesulfonamide. The dimethylaminopropyl derivative, 1-[3-(6-cyclohexylmethoxy-9H-purin-2-ylamino)phenyl]-N-(3-dimethylaminopropyl)methanesulfonamide was only 2-fold less potent than 3-(6-cyclohexylmethoxy-9H-purin-2-ylamino)phenylmethanesulfonamide, suggesting an interaction between the basic dimethylamino group and the kinase. The presence of alicyclic groups on the pendant sulfonamide showed IC50 values in the 0.5–1.5 μM range. N-(4-tert-Butylphenyl)-1-[3-(6-cyclohexylmethoxy-9H-purin-2-ylamino)phenyl]methanesulfonamide was markedly less active (IC50 = 34 μM), suggesting a steric effect within the ATP-binding domain.
An entry from the Cambridge Structural Database, the world’s repository for small molecule crystal structures. The entry contains experimental data from a crystal diffraction study. The deposited dataset for this entry is freely available from the CCDC and typically includes 3D coordinates, cell parameters, space group, experimental conditions and quality measures.
Supplementary Fig. S2 from Preclinical evaluation of a novel pyrimidopyrimidine for the prevention of nucleoside and nucleobase reversal of antifolate cytotoxicity
<div>Abstract<p>Antifolates have been used to treat cancer for the last 50 years and remain the mainstay of many therapeutic regimes. Nucleoside salvage, which depends on plasma membrane transport, can compromise the activity of antifolates. The cardiovascular drug dipyridamole inhibits nucleoside transport and enhances antifolate cytotoxicity <i>in vitro</i>, but its clinical activity is compromised by binding to the plasma protein α<sub>1</sub>-acid glycoprotein (AGP). We report the development of a novel pyrimidopyrimidine analogue of dipyridamole, NU3153, which has equivalent potency to dipyridamole, remains active in the presence of physiologic levels of AGP, inhibits thymidine incorporation into DNA, and prevents thymidine and hypoxanthine rescue from the multitargeted antifolate, pemetrexed. Pharmacokinetic evaluation of NU3153 suggested that a soluble prodrug would improve the <i>in vivo</i> activity. The valine prodrug of NU3153, NU3166, rapidly broke down to NU3153 <i>in vitro</i> and <i>in vivo</i>. Plasma NU3153 concentrations commensurate with rescue inhibition <i>in vitro</i> were maintained for at least 16 hours following administration of NU3166 to mice at 120 mg/kg. However, maximum inhibition of thymidine incorporation into tumors was only 50%, which was insufficient to enhance pemetrexed antitumor activity <i>in vivo</i>. Comparison with the cell-based studies revealed that pemetrexed enhancement requires substantial (≥90%) and durable inhibition of nucleoside transport. In conclusion, we have developed non-AGP binding nucleoside transport inhibitors. Pharmacologically active concentrations of the inhibitors can be achieved <i>in vivo</i> using prodrug approaches, but greater potency is required to evaluate inhibition of nucleoside rescue as a therapeutic maneuver. [Mol Cancer Ther 2009;8(7):1828–37]</p></div>
Supplementary Fig. S1 from Preclinical evaluation of a novel pyrimidopyrimidine for the prevention of nucleoside and nucleobase reversal of antifolate cytotoxicity
The yellow cedar tree, Chamaecyparis nootkatensis, collected in southeast Alaska was evaluated as a potential source of new anticancer agents. Two new diterpene anticancer constituents termed nootkastatins 1 (4) and 2 (5) were isolated along with three previously known diterpene cancer cell growth inhibitors where two were reported as synthetic modifications of totarol and not previously found in nature. All five diterpene structures were established by HRMS and 1D and 2D NMR spectroscopic analyses combined with three X-ray crystal structure determinations (2, 3, and 5). Against a panel of six human cancer cell lines, this series of diterpenes exhibited inhibition over the range GI50 0.75−2.0 μg/mL, and all inhibited the growth of Gram-positive bacteria and fungi.
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