RNA-RNA interactions coordinate GABA metabolism and signaling

Production, signaling, and degradation of the inhibitory neurotransmitter GABA requires tight regulation for proper nervous system function, yet the gene regulatory mechanisms underlying this control remain poorly understood. Here, we identify a post-transcriptional mechanism that coordinates expression of the GABA synthetase Gad1 with its vesicular transporter VGAT in Drosophila . While Gad1 is transcribed specifically in GABAergic neurons, VGAT mRNA is transcribed broadly across the nervous system, but is selectively translated in GABAergic neurons. We show that this specificity depends on CG14989, a putative long non-coding RNA located adjacent to the Gad1 gene locus that shares its GABAergic expression pattern. CG14989 RNA contains sequences complementary to three predicted miR-7 sites in the VGAT 3′UTR, and ectopic expression experiments revealed that it is sufficient for VGAT translation in non-GABAergic neurons, consistent with antagonism of miR-7-mediated repression. Furthermore, complementary regions to CG14989 are present in multiple other genes related to metabolism and signaling of GABA, suggesting a broader role for this mechanism. Together, our findings suggest that CG14989 functions as a regulatory hub that coordinates the molecular identity of GABAergic neurons.