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Rate-limiting recovery processes in neurotransmission under sustained stimulation

  • At chemical synapses, an arriving electric signal induces the fusion of vesicles with the presynaptic membrane, thereby releasing neurotransmitters into the synaptic cleft. After a fusion event, both the release site and the vesicle undergo a recovery process before becoming available for reuse again. Of central interest is the question which of the two restoration steps acts as the limiting factor during neurotrans-mission under high-frequency sustained stimulation. In order to investigate this question, we introduce a novel non-linear reaction network which involves explicit recovery steps for both the vesicles and the release sites, and includes the induced time-dependent output current. The associated reaction dynamics are formulated by means of ordinary differential equations (ODEs), as well as via the associated stochastic jump process. While the stochastic jump model describes a single release site, the average over many release sites is close to the ODE solution and shares its periodic structure. The reason for this can be traced back to the insight that recovery dynamics of vesicles and release sites are statistically almost independent. A sensitivity analysis on the recovery rates based on the ODE formulation reveals that neither the vesicle nor the release site recovery step can be identified as the essential rate-limiting step but that the rate- limiting feature changes over the course of stimulation. Under sustained stimulation the dynamics given by the ODEs exhibit transient dynamics leading from an initial depression of the postsynaptic response to an asymptotic periodic orbit, while the individual trajectories of the stochastic jump model lack the oscillatory behavior an asymptotic periodicity of the ODE-solution.
Metadaten
Verfasserangaben:Ariane ErnstORCiD, Nathalie Unger, Christof Schütte, Alexander Walter, Stefanie WinkelmannORCiD
Dokumentart:Artikel
Titel des übergeordneten Werkes (Deutsch):Mathematical Biosciences
Band:362
Datum der Erstveröffentlichung:12.06.2023
ArXiv-Id:http://arxiv.org/abs/2302.01635
DOI:https://doi.org/10.1016/j.mbs.2023.109023
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