1994
DOI: 10.1248/bpb.17.1032
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Nephrotoxicity Induced by Adenine and Its Analogs: Relationship between Structure and Renal Injury.

Abstract: Twenty-four adenine analogs were administered to mice and the relationship between the structure of analogs and the occurrence of renal injury was examined. Plasma urea nitrogen (UN) and creatinine levels were measured 24 h after oral administration of analogs. Both levels increased in the adenine-, 8-azaadenine-, isoguanine-, or 6-dimethyl aminopurine (6-DMAP)-administered group, but did not increase in the other analog groups. From light microscopy, the damages of tubuli, mainly of proximal tubuli, were obse… Show more

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Cited by 6 publications
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“…Another unexpected finding in our study was the increase observed in uNGAL, uKIM, and uCLUST in the FWB group, compared with the CRYST group. This may be explained by prolonged hypoperfusion, as indicated by higher venous‐arterial carbon dioxide difference at T20, or nephrotoxicity of either filtered free hemoglobin, which was not quantified, or the anticoagulant solution …”
Section: Discussionmentioning
confidence: 99%
“…Another unexpected finding in our study was the increase observed in uNGAL, uKIM, and uCLUST in the FWB group, compared with the CRYST group. This may be explained by prolonged hypoperfusion, as indicated by higher venous‐arterial carbon dioxide difference at T20, or nephrotoxicity of either filtered free hemoglobin, which was not quantified, or the anticoagulant solution …”
Section: Discussionmentioning
confidence: 99%
“…For example, ddA ( 447 ) undergoes acid-catalyzed degradation with a rate constant that is 42,000 times faster than adenosine ( 444 ), which can be attributed to the removal of the inductive electron-withdrawing effect of the 2,3-hydroxyl substituents which would destabilize the oxocarbonium intermediate . Degradation of ddA ( 447 ) upon exposure to gastric acid following oral administration gave adenine ( 453 ), which is further metabolized to give 2,8-dihydroxyadenine ( 454 ), which concentrates in renal tubules where it crystallizes causing nephrotoxicity . ddA ( 447 ) also undergoes cellular deamination to ddI ( 452 ) which is converted via 456 to ddA-5′-triphosphate ( 457 ), the active metabolite responsible for inhibiting HIV-1 reverse transcriptase (Scheme ).…”
Section: Introductionmentioning
confidence: 99%