Neuronal metabolomics by ion mobility mass spectrometry in cocaine self-administering rats after early and late withdrawal.

Abstract

The neuronal metabolomes in rat striatum (STR), prefrontal cortex (PFC), and nucleus accumbens (NAC) were analyzed by Hadamard transform ion mobility mass spectrometry (HT-IMMS) in order to reveal global and specific metabolic changes induced by cocaine self-administration after 1-day or 3-week withdrawal. Metabolite features were comprehensively separated and detected using HPLC-IMMS within minutes. Global metabolic differences were observed by PCA for comparisons between cocaine and saline treatments at 1-day withdrawal time. Metabolite features that were significantly changed were selected using PCA loadings' plot and unpaired LLL test and then tentatively identified by accurate m/z, yielding a complete profile of metabolic changes induced by cocaine self-administration. The majority of these changes were found at the 1-day withdrawal time, but several of them endured even after 3-week withdrawal from cocaine, and these changes were generally brain region specific. Putatively identified metabolites associated with oxidative stress and energy metabolism were also specifically investigated. We discovered that the dysregulation of creatine/creatinine was different between the STR and NAC, demonstrating that metabolic alterations are brain region specific. Glutathione and adenosine were also changed in their abundance, and the results agreed with previous studies. In general, this study provided a high-throughput analytical platform to perform metabolomics analyses with putative identifications for altered metabolite features induced by cocaine treatment, therefore revealing additional metabolic targets of cocaine-induced changes after early and extended withdrawal times.