Inhibition of microglial egress in excised ganglia by human interleukin 10: Implications for its activity in invertebrates

Abstract

We studied the effects of recombinant human interleukin-10 (IL-10) on invertebrate immunocytes and microglia. The present report demonstrates that the spontaneous activation of invertebrate immunocytes can be specifically inhibited by recombinant human IL-10. Induced immunocyte activation by fMLP can also be significantly diminished by IL-10. This inhibition becomes apparent over hours and causes ameboid cells to become round and nonmobile. Furthermore, Mytilus edulis pedal ganglia maintained in culture, over the course of 24 hours, emit microglia. IL-10 significantly reduces this microglial egress, an action that can be diminished by concomitant exposure of the excised ganglia to an antibody specific to IL-10 as well as IL-10. The anti-IL-10 alone is without effect. Active-ameboid microglia that egress become round and inactive following IL-10 exposure, an action prevented by anti-IL-10. Lastly, a substance immunoreactively similar to human IL-10 can be detected in pedal ganglia homogenates. Taken together, and since the immunocytes and microglia are responding to IL-10, it implies that an IL-10-like substance could be present in invertebrates. In conclusion, the study demonstrates that both invertebrate immunocytes and microglia respond to IL-10, suggesting an early evolution of this generally inhibitory cytokine.