TDP-43 regulates GAD1 mRNA splicing and GABA signaling in Drosophila brains

Alterations in the function of the RNA-binding protein TDP-43 is largely associated with the pathogenesis of amyotrophic lateral sclerosis (ALS), a devastating disease of the human motor system that leads to motoneurons degeneration and reduced life expectancy by molecular mechanisms not well known. Regarding to that, we found that the expression levels of the glutamic acid decarboxylase enzyme (GAD1), responsible to convert glutamate to {gamma}-aminobutyric acid (GABA), were downregulated in TBPH-null flies and motoneurons derived from ALS patients carrying mutations in TDP-43 suggesting that defects in the regulation of GAD1 may lead to neurodegeneration by affecting neurotransmitter balance. In this study, we observed that TBPH was required to regulate GAD1 pre-mRNA splicing and GABA levels in Drosophila brains. Interestingly, we discovered that pharmacological treatments aimed to modulate GABA neurotransmission were able to revert locomotion deficiencies in TBPH-minus flies revealing novel mechanisms and therapeutic strategies in ALS.