Ault-Riché D B, Lee Y, Yuan C S, Hasobe M, Wolfe M S, Borcherding D R, Borchardt R T
Department of Biochemistry, University of Kansas, Lawrence 66045.
Mol Pharmacol. 1993 Jun;43(6):989-97.
(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.
(1'R,2'S,3')-9-(2',3'-二羟基环戊烷-1'-基)腺嘌呤(DHCaA)、(1'R,2'S,3'R)-9-(2',3'-二羟基环戊烷-1'-基)-3-脱氮腺嘌呤(3-脱氮-DHCaA)、(4'R)-4'-甲基-DHCaA和(4'R)-4'-乙烯基-DHCaA是碳环核苷阿瑞吡坦的类似物,本实验室之前已合成这些类似物,并证明它们是纯化的牛肝S-腺苷同型半胱氨酸(AdoHcy)水解酶(EC 3.3.1.1)的有效抑制剂。在本研究中,这些类似物在培养的小鼠L929细胞中显示出对AdoHcy水解酶的快速(15分钟内)和浓度依赖性(0.03 - 10 microM)抑制作用[抑制活性的相对顺序为,DHCaA = 3-脱氮-DHCaA >> (4'R)-4'-乙烯基-DHCaA = (4'R)-4'-甲基-DHCaA]。这些抑制剂对L929细胞AdoHcy水解酶的相对效力与其对大鼠肝脏和人胎盘酶重组形式的抑制作用一致。L929细胞AdoHcy水解酶的这种抑制作用持续长达48小时。L929细胞AdoHcy水解酶的抑制导致细胞内AdoHcy浓度显著增加,而细胞内S-腺苷甲硫氨酸(AdoMet)水平保持相对恒定,从而提高了AdoHcy/AdoMet比值。AdoHcy水平和AdoHcy/AdoMet比值的最大增加在接触抑制剂后6小时内出现,并持续至少24小时。在1 microM的浓度下,DHCaA和3-脱氮-DHCaA将AdoHcy/AdoMet比值提高到约0.8(接触抑制剂24小时后),而(4'R)-4'-乙烯基-DHCaA和(4'R)-4'-甲基-DHCaA将AdoHcy/AdoMet比值提高到约0.15,而对照水平为0.05。用浓度高达10 microM的DHCaA、3-脱氮-DHCaA、(4'R)-4'-乙烯基-DHCaA和(4'R)-4'-甲基-DHCaA处理L929细胞不会导致内源性核苷酸(如CTP、UTP、ATP和GTP)的细胞水平发生变化。相比之下,用10 microM阿瑞吡坦处理细胞6小时后,细胞内CTP、ATP和GTP水平降低,且含有大量的阿瑞吡坦三磷酸及其碳环核苷的GTP代谢产物。这些数据清楚地表明,4'-修饰的类似物[DHCaA、3-脱氮-DHCaA、(4'R)-4'-乙烯基-DHCaA和(4'R)-4'-甲基-DHCaA]对细胞AdoHcy水解酶保持抑制活性,导致AdoHcy水平升高和AdoHcy/AdoMet比值升高。然而,这些类似物对细胞腺苷激酶没有底物或抑制活性。此外,阿瑞吡坦在小鼠L929细胞裂解物中迅速代谢,即6小时内>60%的阿瑞吡坦已被代谢。相比之下,DHCaA和3-脱氮-DHCaA与细胞裂解物孵育长达6小时后浓度均未出现任何下降。
