TY - JOUR T1 - The effect of NMDA-R antagonist, MK-801, on neuronal mismatch along the auditory thalamocortical pathway JF - bioRxiv DO - 10.1101/636068 SP - 636068 AU - Gloria G Parras AU - Catalina Valdés-Baizabal AU - Lauren Harms AU - Patricia Michie AU - Manuel S Malmierca Y1 - 2019/01/01 UR - http://biorxiv.org/content/early/2019/10/13/636068.abstract N2 - Efficient sensory processing requires that the brain is able to maximize its response to unexpected stimuli, while suppressing responsivity to expected events. Mismatch negativity (MMN) is an auditory event-related potential that occurs when a regular pattern is interrupted by an event that violates the expected properties of the pattern. MMN has been found to be reduced in individuals with schizophrenia in over 100 separate studies, an effect believed to be underpinned by glutamate N-methyl-D-aspartate receptor (NMDA-R) dysfunction, as it is observed that NMDA-R antagonists also reduce MMN in healthy volunteers. The aim of the current study is to examine this effect in rodents. Using single unit recording in specific auditory areas using methods not readily utilized in humans, we have previously demonstrated that neuronal indices of rodent mismatch responses recorded from thalamic and cortical areas of the brain can be decomposed into a relatively simple repetition suppression and a more sophisticated prediction error process. In the current study, we aimed to test how the NMDA-R antagonist, MK-801, affected both of these processes along the rat auditory thalamocortical pathway. We found that MK-801 had the opposite effect than expected, and enhanced thalamic repetition suppression and cortical prediction error. These single unit data correlate with the recordings of local field responses. Together with previous data, this study suggests that our understanding of the contribution of NMDA-R system to MMN generation is far from complete, and also has potential implications for future research in schizophrenia.Significance Statement In this study, we demonstrate that an NMDA-R antagonist, MK-801, differentially affects single neuron responses to auditory stimuli along the thalamocortical axis by increasing the response magnitude of unexpected events in the auditory cortex and intensifying the adaptation of responses to expected events in the thalamus. Thus, we provide evidence that NMDA-R antagonists alter the balance between prediction-error and repetition suppression processes that underlie the generation of mismatch responses in the brain, and these effects are differentially expressed at different levels of auditory processing. As effects of MK-801 were in the opposite direction to our expectations, it demonstrates that our understanding of role of NMDA-R in synaptic plasticity and the neural processes underpinning MMN generation are far from complete. ER -