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Single-dose ethanol intoxication causes acute and lasting neuronal changes in the brain.

Johannes KnabbeJil ProtzmannNiklas SchneiderMichael BergerDominik DannehlShoupeng WeiChristopher StrahleMichèle TegtmeierAstha JaiswalHongwei ZhengMarcus KruegerKarl RohrRainer SpanagelAinhoa BilbaoMaren EngelhardtHenrike ScholzSidney B Cambridge
Published in: Proceedings of the National Academy of Sciences of the United States of America (2022)
Alcohol intoxication at early ages is a risk factor for the development of addictive behavior. To uncover neuronal molecular correlates of acute ethanol intoxication, we used stable-isotope-labeled mice combined with quantitative mass spectrometry to screen more than 2,000 hippocampal proteins, of which 72 changed synaptic abundance up to twofold after ethanol exposure. Among those were mitochondrial proteins and proteins important for neuronal morphology, including MAP6 and ankyrin-G. Based on these candidate proteins, we found acute and lasting molecular, cellular, and behavioral changes following a single intoxication in alcohol-naïve mice. Immunofluorescence analysis revealed a shortening of axon initial segments. Longitudinal two-photon in vivo imaging showed increased synaptic dynamics and mitochondrial trafficking in axons. Knockdown of mitochondrial trafficking in dopaminergic neurons abolished conditioned alcohol preference in Drosophila flies. This study introduces mitochondrial trafficking as a process implicated in reward learning and highlights the potential of high-resolution proteomics to identify cellular mechanisms relevant for addictive behavior.
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