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Effects of 4'-modified analogs of aristeromycin on the metabolism of S-adenosyl-L-homocysteine in murine L929 cells
Authors:DB Ault-Riché  Y Lee  CS Yuan  M Hasobe  MS Wolfe  DR Borcherding  RT Borchardt
Affiliation:Department of Biochemistry, University of Kansas, Lawrence 66045.
Abstract:(1'R,2'S,3')-9-(2',3'-Dihydroxycyclopentan-1'-yl)adenine (DHCaA), (1'R,2'S,3'R)-9-(2',3'-dihydroxycyclopentan-1'-yl)-3-deazaadenine (3-deaza-DHCaA), (4'R)-4'-methyl-DHCaA, and (4'R)-4'-vinyl-DHCaA, which are analogs of the carbocyclic nucleoside aristeromycin, were synthesized earlier by our laboratory and were shown to be potent inhibitors of purified bovine liver S-adenosylhomocysteine (AdoHcy) hydrolase (EC 3.3.1.1). In the present study, these analogs were shown to produce rapid (within 15 min) and concentration-dependent (0.03-10 microM) inhibition of AdoHcy hydrolase in cultured murine L929 cells [relative order of inhibitory activity, DHCaA = 3-deaza-DHCaA > (4'R)-4'-vinyl-DHCaA = (4'R)-4'-methyl-DHCaA]. The relative potencies of these inhibitors on the L929 AdoHcy hydrolase were consistent with their inhibitory effects on the recombinant forms of rat liver and human placental enzymes. This inhibition of L929 cellular AdoHcy hydrolase persisted for up to 48 hr. The inhibition of the L929 AdoHcy hydrolase resulted in a significant increase in the cellular concentrations of AdoHcy, whereas the cellular S-adenosylmethionine (AdoMet) levels remained relatively constant, thereby elevating the AdoHcy/AdoMet ratios. Maximum increases in AdoHcy levels and AdoHcy/AdoMet ratios occurred within 6 hr of exposure to the inhibitors and persisted for at least 24 hr. At a concentration of 1 microM, DHCaA and 3-deaza-DHCaA increased AdoHcy/AdoMet ratios to approximately 0.8 (after 24 hr of exposure to the inhibitors), whereas (4'R)-4'-vinyl-DHCaA and (4'R)-4'-methyl-DHCaA elevated AdoHcy/AdoMet ratios to approximately 0.15, compared with control levels of 0.05. Treatment of L929 cells with concentrations of DHCaA, 3-deaza-DHCaA, (4'R)-4'-vinyl-DHCaA, and (4'R)-4'-methyl-DHCaA up to 10 microM did not result in changes in cellular levels of endogenous nucleotides (e.g., CTP, UTP, ATP, and GTP). In contrast, cells treated with 10 microM aristeromycin for 6 hr contained reduced cellular levels of CTP, ATP, and GTP and significant levels of aristeromycin triphosphate and a GTP metabolite of this carbocyclic nucleoside. These data clearly show that the 4'-modified analogs [DHCaA, 3-deaza-DHCaA, (4'R)-4'-vinyl-DHCaA, and (4'R)-4'-methyl-DHCaA] retain inhibitory activity toward cellular AdoHcy hydrolase, causing elevated levels of AdoHcy and elevated AdoHcy/AdoMet ratios. However, these analogs are devoid of substrate or inhibitory activity toward cellular adenosine kinase. In addition, aristeromycin is rapidly metabolized in murine L929 cell lysates, i.e., > 60% of the aristeromycin had been metabolized in 6 hr. In contrast, neither DHCaA nor 3-deaza-DHCaA showed any decrease in concentration after incubation with cell lysates for up to 6 hr.
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