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- Title
Investigating the Cocaine-induced Reduction of Potassium Current on the Generation of Action Potentials Using a Computational Model.
- Authors
Borjkhani, Hadi; Borjkhani, Mehdi; Sharif, Morteza A.
- Abstract
Introduction: Drugs of abuse, such as cocaine, affect different brain regions and lead to pathological memories. These abnormal memories may occur due to changes in synaptic transmissions or variations in synaptic properties of neurons. It has been shown that cocaine inhibits delayed rectifying potassium currents in affected brain regions and can create pathological memories. This study investigates how the change in the conductance of delayed rectifying potassium channels can affect the produced action potentials using a computational model. Methods: We present a computational model with different channels and receptors, including sodium, potassium, calcium, NMDARs, and AMPARs, which can produce burst-type action potentials. In the simulations, by changing the delayed rectifying potassium conductance bifurcation diagram is calculated. Results: By decreasing the potassium current for a fixed stimulatory signal, burst-type action potentials can be generated. In the following and with a further reduction of potassium conductance, produced action potentials exhibit non-linear and even chaotic behaviors. Conclusion: Results show that for a specific range of potassium conductance, a chaotic regime emerges in produced action potentials. These chaotic oscillations may play a role in inducing abnormal memories.
- Subjects
ACTION potentials; POTASSIUM; POTASSIUM channels; NEURAL transmission; BIFURCATION diagrams; DRUG-seeking behavior
- Publication
Basic & Clinical Neuroscience, 2022, Vol 13, Issue 1, p15
- ISSN
2008-126X
- Publication type
Article
- DOI
10.32598/bcn.2021.1150.2