Coelenterazine (3,7-dihydro-2-(p-hydroxybenzyl)-6-(p-hydroxyphenyl)-8-benzylimidazolo[1,2-a]pyrazin-3- one) is a substrate for the bioluminescence reaction in many marine animals. Recent work showed that CLZn, its synthetic analogue CLZm, and their common oxidation product coelenteramine (CLM) have strong antioxidative properties in acellular lipid peroxidation systems as well as in rat hepatocytes subjected to tert-butyl hydroperoxide (t-BHP). Here, we analyzed the ability of CLZm and several imidazolopyrazinone (IMPZs) analogues to protect primary cultures of rat hepatocytes against a nitrofurantoin (NF)-induced oxidative stress. Comparison of protection capabilities with reference antioxidants yielded the following ranking: CLZm >>> BHT >Trolox C((R)) > probucol > alpha-tocopherol. The comparison of CLZm with analogues lacking the phenol group in R(1) revealed no differences although the presence of this phenol conferred superior protection against t-BHP. CLM, as well as its methoxylated analogue mCLM which lacks chain-breaking properties, were equally potent in preventing cellular damage caused by NF. mCLM and alpha-naphthoflavone, an inhibitor of cytochrome P450 (CYP450) IAI, similarly protected cells against NF-induced mortality and also equally inhibited EROD activity in methylcholanthrene-induced hepatocytes. The inhibition of EROD by CLZm and CLM was less pronounced. We suggest that the extent of protection conferred by IMPZs against NF-toxicity reflects both the occurrence of antioxidative properties detoxifying ROS produced within cells and inhibitory actions on CYP450 isoforms involved in the bioreduction of NF.