Dimethylarsine likely acts as a mouse-pulmonary tumor initiator via the production of dimethylarsine radical and/or its peroxy radical

AimsRecent animal experiments have indicated that dimethylarsinic acid (DMA), a main metabolite of inorganic arsenic, is a complete carcinogen in the lung of mice and the urinary bladder of rats, nevertheless, no ultimate-active metabolite from DMA has been identified thus far. We have proposed that dimethylarsine ((CH₃)₂AsH), an ultimate reductive metabolite of DMA, is excreted in the expired air of mice administered DMA, and furthermore, was easily converted into dimethylarsine radical ((CH₃)₂As?) and dimethylarsine peroxy radical ((CH₃)₂AsOO?) by its reaction with O₂. The aim of the present study was to elucidate the possible mode of the tumorigenic action by dimethylated arsenic.Main methodsIn vitro experiments using GSH reductase as a two-electron donor of dimethylarsenic-glutathione conjugate ((CH₃)₂As-SG) and DNA adduct assay via a photochemical approach were performed. A lung tumorigenicity assay of (CH₃)₂AsH suspended in argon-atmospheric olive oil for 5 days was also conducted in mice.Key findingsThe results indicated that (CH₃)₂AsH was easily produced enzymatically from (CH₃)₂As-SG and showed tumor-initiating action in mouse lung via the production of (CH₃)₂As? and (CH₃)₂AsOO? by its reaction with O₂, and that these radicals have the ability to form DNA adducts.SignificanceThe carcinogenicity of DMA, at least in mouse lung, could be explained based on the proposal that oral administration of DMA induces pulmonary tumors in mice, and arises from the arsine radicals produced through (CH₃)₂AsH, which was enzymatically reduced from (CH₃)₂As-SG.