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Glutamate spillover drives robust all-or-none dendritic plateau potentials—an in silico investigation using models of striatal projection neurons

Daniel Trpevski, Zahra Khodadadi, Ilaria Carannante, Jeanette Hellgren Kotaleski

2023Frontiers in Cellular Neuroscience11 citationsDOIOpen Access PDF

Abstract

Plateau potentials are a critical feature of neuronal excitability, but their all-or-none behavior is not easily captured in modeling. In this study, we investigated models of plateau potentials in multi-compartment neuron models and found that including glutamate spillover provides robust all-or-none behavior. This result arises due to the prolonged duration of extrasynaptic glutamate. When glutamate spillover is not included, the all-or-none behavior is very sensitive to the steepness of the Mg 2+ block. These results suggest a potentially significant role of glutamate spillover in plateau potential generation, providing a mechanism for robust all-or-none behavior across a wide range of slopes of the Mg 2+ block curve. We also illustrate the importance of the all-or-none plateau potential behavior for nonlinear computation with regard to the nonlinear feature binding problem.

Topics & Concepts

NeurosciencePlateau (mathematics)In silicoGlutamate receptorProjection (relational algebra)Spillover effectPsychologyBiologyComputer scienceMathematicsEconomicsReceptorAlgorithmBiochemistryMicroeconomicsMathematical analysisGeneNeuroscience and Neuropharmacology ResearchNeural dynamics and brain functionReceptor Mechanisms and Signaling