Abstract: Lipopolysaccharide (LPS)-induced immunity activation can result in evident depressive-like behavior, such as anhedonia and reduced locomotion. Earlier studies have shown that K+ channels, such as Kv7 and TREK-1, are involved in the development of depressive-like behavior in animal models. In the present study, we show that LPS (200 μg/kg) could induce significant short-term depressive-like behavior in rat. In order to get insight into the underlying molecular mechanism, we investigated the potential involvement of rat hippocampal neuron voltage-dependent K+ channels in the depressive-like behaviors induced by LPS. Methods: Twenty rats were randomly divided into LPS and control groups, each with ten rats. The rats in the LPS group were injected with LPS (200 μg/kg), while saline was injected in the rats of the control group. The saccharin preference test and open field test were carried out 2 hours and 24 hours after injection of LPS to assess short-term or long-term effects on animal behavior, respectively. Next, 12 rats were randomly divided into LPS 2 hr, LPS 24 hr and control groups, each with four rats for assessing the effect of LPS on K+ channel currents of hippocampal neurons by using whole-cell patch-clamp configuration. Results: The data showed that LPS induced depressive-like behavior in rat after 2 hours of single injection. However, this depressive-like behavior was recovered after 24 hours of single LPS injection. In agreement with these behavioral observations, voltage-dependent K+ current density was increased in neurons isolated from rat after 2 hours of single LPS injection, whereas no significant change was found after 24 hours injection. Conclusion: Our results demonstrate that LPS–induced immunity activation can result in evident short term depressive–like behavior in rats, which are coincident with LPS induced up-regulation of voltage-dependent K+ current in rat hippocampal neurons. This result suggests that voltage-dependent K+ current might contribute to the development of the depressive-like behavior induced by LPS.

Key words: lipopolysaccharide, depressive-like behavior, hippocampal neuron, voltage-dependent potassium channel