Learned helplessness behavior was examined in female and male C57BL/6J (B6), 129/J (129) and (B6 x 129)F1 mice, common genetic backgrounds for the generation of knockout models, as well as in mice of a mixed genetic background (outbred mice). Both genotype and gender differences were observed in learned helplessness. Outbred males showed increased shuttle escape latencies following 60, 120, or 360 inescapable shocks compared to nonshocked controls, but outbred females showed no increase in escape latencies following inescapable shock pretreatment. B6 females showed increased escape latencies following 60, 120, or 360 inescapable shocks, whereas B6 males showed increased latencies only after 360 shocks. Female and male 129 and B6129F1 mice did not show an increase in escape latencies following inescapable shock, but this was most likely due to poor escape performance in nonshocked control mice. Differences in escape performance could not be explained by differences in pain thresholds between genotypes. These results support the idea that genetic background and gender are important to consider when using the learned helplessness model in genetically manipulated mice.