"The Giant Fiber System (GFS) is a multi-component neuronal pathway mediating rapid escape response in the adult fruit-fly Drosophila melanogaster, usually in the face of a threatening visual stimulus. Two branches of the circuit promote the response by stimulating an escape jump followed by flight initiation. Our recent work demonstrated an age-associated decline in the speed of signal propagation through the circuit, measured as the stimulus-to-muscle depolarization response latency. The decline is likely due to the diminishing number of inter-neuronal gap junctions in the GFS of ageing flies. In this work, we presented a realistic conductance-based, computational model of the GFS that recapitulates our experimental results and identifies some of the critical anatomical and physiological components governing the circuit's response latency. According to our model, anatomical properties of the GFS neurons have a stronger impact on the transmission than neuronal membrane conductance densities. The model provides testable predictions for the effect of experimental interventions on the circuit's performance in young and ageing flies."
Model Type: Realistic Network
Region(s) or Organism(s): Drosophila
Model Concept(s): Invertebrate; Delay
Simulation Environment: NEURON
Implementer(s): Zylbertal, Asaph [asaph.zylbertal at mail.huji.ac.il]; Augustin, Hrvoje
References:
Augustin H, Zylbertal A, Partridge L. (2019). A computational model of the escape response latency in the Giant Fiber System of Drosophila melanogaster eNeuro.