Chapleau_2014_Theor.Biol.Med.Model_11_42

Reference

Title : Potential new therapeutic modality revealed through agent-based modeling of the neuromuscular junction and acetylcholinesterase inhibition - Chapleau_2014_Theor.Biol.Med.Model_11_42
Author(s) : Chapleau RR , Robinson PJ , Schlager JJ , Gearhart JM
Ref : Theor Biol Med Model , 11 :42 , 2014
Abstract :

BACKGROUND: One of the leading causes of death and illness within the agriculture industry is through unintentionally ingesting or inhaling organophosphate pesticides. OP intoxication directly inhibits acetylcholinesterase, resulting in an excitatory signaling cascade leading to fasciculation, loss of control of bodily fluids, and seizures.
METHODS: Our model was developed using a discrete, rules-based modeling approach in NetLogo. This model includes acetylcholinesterase, the nicotinic acetylcholine receptor responsible for signal transduction, a single release of acetylcholine, organophosphate inhibitors, and a theoretical novel medical countermeasure. We have parameterized the system considering the molecular reaction rate constants in an agent-based approach, as opposed to apparent macroscopic rates used in differential equation models.
RESULTS: Our model demonstrates how the cholinergic crisis can be mitigated by therapeutic intervention with an acetylcholinesterase activator. Our model predicts signal rise rates and half-lives consistent with in vitro and in vivo data in the absence and presence of inhibitors. It also predicts the efficacy of theoretical countermeasures acting through three mechanisms: increasing catalytic turnover of acetylcholine, increasing acetylcholine binding affinity to the enzyme, and decreasing binding rates of inhibitors. CONCLUSION: We present a model of the neuromuscular junction confirming observed acetylcholine signaling data and suggesting that developing a countermeasure capable of reducing inhibitor binding, and not activator concentration, is the most important parameter for reducing organophosphate (OP) intoxication.

PubMedSearch : Chapleau_2014_Theor.Biol.Med.Model_11_42
PubMedID: 25273339

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Citations formats

Chapleau RR, Robinson PJ, Schlager JJ, Gearhart JM (2014)
Potential new therapeutic modality revealed through agent-based modeling of the neuromuscular junction and acetylcholinesterase inhibition
Theor Biol Med Model 11 :42

Chapleau RR, Robinson PJ, Schlager JJ, Gearhart JM (2014)
Theor Biol Med Model 11 :42