ABSTRACT
Some N-(dipeptidyl)-S-acetylcysteamine and N,N'-(dipeptidyl)cystamine salt derivatives were synthesized and evaluated as candidate radioprotector agents. Toxicity and radioprotective activity as the dose reduction factor (DRF) were determined in vivo on mice and compared to N-glycyl-S-acetylcysteamine trifluoroacetate. One of the most interesting compounds of this series was N-glycylglycyl-S-acetylcysteamine trifluoroacetate (8).
Subject(s)
Cystamine/analogs & derivatives , Cysteamine/analogs & derivatives , Radiation-Protective Agents/chemical synthesis , Animals , Cystamine/chemical synthesis , Cystamine/pharmacology , Cysteamine/chemical synthesis , Cysteamine/pharmacology , Dipeptides/pharmacology , Mice , Radiation-Protective Agents/pharmacologyABSTRACT
A variety of N-(aminoalkanoyl)-S-acylcysteamine and N,N'-bis(aminoalkanoyl)cystamine salt derivatives were synthesized. Toxicity and radioprotective activity (as the dose reduction factor DRF) were determined in vivo on mice and compared to WR 2721 and S-acetylcysteamine hydrochloride. One of the most interesting compounds of this series was N-glycyl-S-acetylcysteamine trifluoroacetate (16, I 102). Structure-activity relationships are discussed.
