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Subtle re-location of dendritic spine branches containing membrane with fast spiking mechanisms can alter synaptic efficacy
Authors:D. A. Rusakov  M. G. Stewart  S. M. Korogod
Affiliation:(1) The Open University, Milton Keynes, UK;(2) Dnepropetrovsk State University and International Center for Molecular Physiology (Dnepropetrovsk Division), National Academy of Sciences of Ukraine, Dnepropetrovsk, Ukraine
Abstract:The potential physiological impact of morphological changes in the active dendritic spines, which are believed to be associated with altered synaptic efficacy, was investigated in a computer simulation study using the NEURON package [1]. A compartmental model of a simplified neuron was built, which included 30 complex spines (neck, head, and active zone) and accommodating AMPA-type synaptic inputs with alpha-function conductances. Hodgkin-Huxley type excitable membranes were inserted into the spine heads. It was shown that arranging spines in dense clusters, as opposed to a uniformly random spine distribution, has a negligible effect on the synaptic signal transfer (other model conditions, including synaptic input and spine density, remained unchanged). However, if a proportion (e.g., 3–20%) of the spines partly fuse with their neighbors forming branched spines, this could increase dramatically the cell response to the unchanged synaptic input. Results of this pilot study provide the basis for a more detailed investigation of the relationship between the spine arrangement and synaptic function, considering dual-component synaptic currents and mechanisms controlling ion fluxes in the dendritic compartments.
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