195252-65-4Relevant articles and documents
Synthesis of cyclobutane nucleoside analogues 3: Preparation of carbocyclic derivatives of oxetanocin
Hassan, Muhammad Murtaza,Yaseen, Ayat,Ebead, Abdelaziz,Audette, Gerald,Lee-Ruff, Edward
, p. 518 - 531 (2018/09/21)
A synthesis of cyclobutene nucleoside analogs in which the nucleobase is tethered by a methylene group is described. The coupling of 6-chloropurine with 3-hydroxymethyl-cyclobutanone proceeds via its triflate to give both N-7 and N-9 regioisomers with relative yields corresponding to the calculated charge distribution of the 6-chloropurinyl anion. The stereoselective reduction of the N-alkylated ketones yielded quantitatively one stereoisomer in each case. The structural assignments were based on spectroscopic data and single crystal X-ray diffraction. Attempts to photoexcite the N-7 and N-9 ketones in order to promote ring-expansion did not ensue. Preliminary evidence suggests a photodecarbonylation to cyclopropanes took place.
6-(alkylamino)-9-alkylpurines. A new class of potential antipsychotic agents
Kelley, James L.,Morris Bullock,Krochmal, Mark P.,McLean, Ed W.,Linn, James A.,Durcan, Micheal J.,Cooper, Barrett R.
, p. 3207 - 3216 (2007/10/03)
A series of 6-(alkylamino)-9-alkylpurines was synthesized and evaluated for the property of antagonizing the behavioral effects in animals of the dopamine agonist apomorphine. This model for identifying potential antipsychotic agents is based on the hypothesis that agents that antagonize apomorphine-induced aggressive behavior in rats and apomorphine-induced climbing in mice, but that do not block stereotyped behavior, could have an antipsychotic effect in humans without producing extrapyramidal side effects. The antiaggressive-behavior activity of lead compound 1 (6-(dimethylamino)- 9-(3-phenylalaninamidobenzyl)-9H-purine) was improved 48-fold with 6- (cyclopropylamino)-9-(cyclopropylmethyl)-2-(trifluoromethyl)-9H-purine (80) (po ED50 of 2 mg/kg), which was obtained through an iterative sequence of structure-activity relationship studies that encompassed evaluation of the effects of structure variations at the purine 9-, 6-, and 2-positions. Potency was enhanced with a 9-cyclopropyl group, the duration of action was improved with the 6-(cyclopropylamino) substituent, potency was further enhanced with an N-formyl prodrug, and an agent with reduced cardiovascular effect emerged with the 2-trifluoromethyl purine 80. This potential antipsychotic agent was not developed further due to undesirable effects on the stomach.
