Ghiggeri G M, Cercignani G, Ginevri F, Bertelli R, Zetta L, Greco F, Candiano G, Trivelli A, Gusmano R
Department of Nephrology, G. Gaslini Institute, Genoa, Italy.
Kidney Int. 1991 Jul;40(1):35-42. doi: 10.1038/ki.1991.176.
Two puromycin aminonucleoside (PAN) excretion products were purified by HPLC from urine of PAN-treated rats and characterized by nuclear magnetic resonance as N6-dimethyl-3'amino-3'deoxyadenosine (DA-Ado) and N6-methyl-3'amino-3'deoxyadenosine (MA-Ado), respectively, the former corresponding to unmodified PAN. DA-Ado was not a substrate for adenosine deaminase (ADA), purine nucleoside phosphorylase (PNP) or xanthine oxidase (XO), while MA-Ado was consecutively converted into hypoxanthine by a mixture of ADA and PNP. A different rate of transformation of DA-Ado and MA-Ado into hypoxanthine by isolated glomeruli was observed and was higher for the monomethylated analogue by a factor of 3 (79% vs. 21%); this was ascribed to the rate-limiting level of a demethylase activity acting on DA-Ado. Furthermore, DA-Ado was not transformed by glomerular epithelial cells in culture, while a little amount of MA-Ado was converted into hypoxanthine after six hours of incubation. In spite of this different metabolic behavior, the same order of cytotoxicity on glomerular epithelial cells in culture was observed for MA-Ado, DA-Ado and commercial PAN. All these molecules induced a dose response inhibition of [3H]thymidine incorporation into DNA after exposure for two hours and a marked alteration of cell viability which was not inhibited by free radical scavengers and deferoxamine. This study provides the first evidence for a glomerular metabolism of PAN and its urinary metabolite MA-Ado involving their transformation via the purine cycle enzymes.(ABSTRACT TRUNCATED AT 250 WORDS)
通过高效液相色谱法(HPLC)从经嘌呤霉素氨基核苷(PAN)处理的大鼠尿液中纯化出两种嘌呤霉素氨基核苷排泄产物,经核磁共振鉴定分别为N6 - 二甲基 - 3' - 氨基 - 3' - 脱氧腺苷(DA - Ado)和N6 - 甲基 - 3' - 氨基 - 3' - 脱氧腺苷(MA - Ado),前者对应未修饰的PAN。DA - Ado不是腺苷脱氨酶(ADA)、嘌呤核苷磷酸化酶(PNP)或黄嘌呤氧化酶(XO)的底物,而MA - Ado可被ADA和PNP的混合物连续转化为次黄嘌呤。观察到分离的肾小球将DA - Ado和MA - Ado转化为次黄嘌呤的速率不同,单甲基化类似物的转化率高3倍(79%对21%);这归因于作用于DA - Ado的脱甲基酶活性的限速水平。此外,培养的肾小球上皮细胞不会转化DA - Ado,而MA - Ado在孵育6小时后有少量转化为次黄嘌呤。尽管有这种不同的代谢行为,但在培养的肾小球上皮细胞上观察到MA - Ado、DA - Ado和市售PAN具有相同的细胞毒性顺序。所有这些分子在暴露2小时后均诱导了[3H]胸苷掺入DNA的剂量反应抑制以及细胞活力的显著改变,且不受自由基清除剂和去铁胺的抑制。本研究首次证明了PAN及其尿代谢产物MA - Ado的肾小球代谢涉及通过嘌呤循环酶的转化。(摘要截短于250字)
