Several nitrosoureido nucleosides (3a, 3b, 5a, 7a, 7c, and 10a) designed as inhibitors of enzymes that metabolize pyrimidine nucleotides have been prepared and their chemical and biological properties studied. The methylnitrosoureas 3a and 3b were not significantly cytotoxic to H.Ep.-2 and L1210 cells in vitro but showed moderate activity in the P388 mouse leukemia screen (79% ILS for 3a and 56% ILS for 3b). The (chloroethyl)nitrosoureas 7a and 7c inhibited proliferation of L1210 cells, were cytotoxic to H.Ep.-2 cells, and demonstrated good activity against P388 in vivo (135% ILS with one 30-day survivor for 7a and 191% ILS with two 30-day survivors for 7c). Overnight exposure of L1210 cells to 7a and 7c resulted in cell enlargement accompanied by cell lysis. Macromolecular synthesis in enlarged cells, particularly RNA and protein synthesis, was markedly increased relative to that in untreated control cells. The half-lives of each of the nitrosoureas in pH 7 buffer was determined and compared with biological activity.
Retinoids that have two functional groups at the side-chain terminus have been synthesized. The two terminal functional groups are combinations of the carboxyl, carbethoxy, and N-(ethylamino)carbonyl groups. The synthesis route is based on the sodium amide catalyzed condensation of (E,E)-beta-ionylideneacetaldehyde with diethyl isopropylidenemalonate. Ethyl 14-carboxyretinoate (6), the initial bifunctional analogue, undergoes isomerization in unbuffered aqueous ethanol and reaches a state of equilibrium with ethyl 14-carboxy-13-cis-retinoate. Both of the possible amide-esters and amide-acids were obtained. The structures of the isomeric bifunctional analogues were established by studies of nuclear Overhauser effects. The bifunctional analogues induce differentiation of mouse embryonal carcinoma cells, and those analogues that have a free carboxyl group bind to cellular retinoic acid binding protein.
The introduction of substituents at position 3 of methyl 4-oxoretinoate can be effected in good yields by alkylating the lithium dienolate. A second substituent can be introduced also, but the resulting 3,3-disubstituted-4-oxoretinoates were isolated in lower yields. Evidence was obtained for a slower rate of alkylation at the alpha-position (carbon 14) of the ester group. Some of these 4-oxoretinoic acid analogues showed high activity in assays in vivo for the inhibition of ornithine decarboxylase activity and carcinogen-induced papillomas in mouse skin.
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