Synthesis of [17,18-3H]Trans-13-Azaprostanoic Acid. A Labeled Probe for the PGH2/TXA2 Receptor
Document Type
Article
Publication Date
1-1-1984
Description
Because of its highly unstable nature, TXA2, produced by platelet metabolism of arachidonic acid, does not lend itself to use as a receptor probe for its own receptor. As such, the stable TXA2/PGH2 antagonist, trans-13-azaprostanoic acid (trans-13-APA, 12b), was prepared as the [17,18 3H] derivative ([3H] trans-13-APA, 12c) to study this receptor and to better evaluate the mechanism of action of these azaprostanoids. Tritiated trans-13-APA, 12c, was prepared in nearly theoretical specific activity (57 Ci/mmole) from (17z)-trans-13-azaprost-17-enoic acid (11b) by catalytic tritiation. The unsaturated 11b was prepared by condensation of cis-7-amino-3-heptene (8) with 2-(6-carboxyhexyl) cyclopentanone (9), NaBH4 reduction, chromatography, and hydrolysis of the trans isomer so isolated. The olefins 11a and b were also of biochemical interest because of the unsaturation in the lower side chain. The presence of similar unsaturation in PGH3 (4) and TXA3 (3) renders these prostaglandins inactive as proaggregatory agents. Evaluation of the antiaggregatory activity of 11a and b indicated it to be about the same potency in inhibiting human platelet aggregation as the parent cis and trans-13-APAs, suggesting that introduction of a double bond at the 17 position in platelet prostaglandin antagonists is unlikely to result in enhanced antiplatelet activity.
Citation Information
Ghali, N. I.; Kattelman, E. J.; Hung, S. C.; Schnorf, K. E.; Le Breton, G. C.; and Venton, D. L.. 1984. Synthesis of [17,18-3H]Trans-13-Azaprostanoic Acid. A Labeled Probe for the PGH2/TXA2 Receptor. Prostaglandins. Vol.27(6). 865-876. https://doi.org/10.1016/S0090-6980(84)80006-4 PMID: 6091182 ISSN: 0090-6980