Abstract
NF-κB proteins are well known as transcription factors important in immune system activation. In this highly conserved role, they contribute to changes in behavior in response to infection and in response to a variety of other insults and experiences. In some mammalian neurons, NF-κBs can be found at the synapse and translocate to the nucleus to alter gene expression when activated by synaptic activity. Here, we demonstrate that, in Drosophila melanogaster, NF-κB action is important both inside and outside the nucleus and that the Dif gene has segregated nuclear and non-nuclear NF-κB action into different protein isoforms. The DifA isoform is a canonical nuclear-acting NF-κB protein that enters the nucleus and is important for combating infection. The DifB variant, but not the DifA variant, is found in the central nervous system (mushroom bodies and antennal lobes). DifB does not enter the nucleus and co-localizes with a synaptic protein. In males and females, a DifB mutant alters alcohol behavioral sensitivity without an obvious effect on combating infection, whereas a DifA mutant does not affect alcohol sensitivity but compromises the immune response. These data are evidence that the non-nuclear DifB variant contributes to alcohol behavioral sensitivity by a nongenomic mechanism that diverges from the NF-κB transcriptional effects used in the peripheral immune system. Enrichment of DifB in brain regions rich in synapses and biochemical enrichment of DifB in the synaptoneurosome fraction indicates that the protein may act locally at the synapse.SIGNIFICANCE STATEMENT NF-κBs are transcription factors used by innate immune signaling pathways to protect against infection. Alcohol abuse also activates these pathways, which contributes to the addictive process and the health consequences associated with alcohol abuse. In the mammalian nervous system, NF-κBs localize to synapses, but it is axiomatic that they effect change by acting in the nucleus. However, for the Drosophila Dif gene, immune and neural function segregate into different protein isoforms. Whereas the nuclear isoform (DifA) activates immune genes in response to infection, the CNS isoform acts nongenomically to modulate alcohol sensitivity. Immunohistochemical and biochemical assays localize DifB to synapse-rich regions. Direct synaptic action would provide a novel and rapid way for NF-κB signaling to modulate behavior.
