Assessment of frequency-dependent alterations in the level of extracellular Ca2+ in the synaptic cleft.

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Assessment of frequency-dependent alterations in the level of extracellular Ca2+ in the synaptic cleft.

P M Vassilev, J Mitchel, M Vassilev, M Kanazirska and E M Brown

Department of Medicine, Brigham and Women's Hospital, Boston, Massachsetts, USA.

ABSTRACT

The synaptic cleft may be represented as a very thin disk ofextracellular fluid. It is possible that at high stimulationfrequencies the interval between pulses would be insufficientfor diffusion of Ca2+ from the periphery of the cleft to replaceextracellular Ca2+ depleted at the center of the cleft as aresult of activation of postsynaptic, Ca2(+)-permeable channels.Computer modeling was employed to assess the impact of activationof glutamate receptor channels (GRCs) in the postsynaptic membraneon the level of extracellular Ca2+ within the synaptic cleft.The model includes calcium influx from the synaptic cleft intothe postsynaptic compartment through GRC and calcium effluxthrough calcium pumps and Na/Ca exchangers. Concentrations ofextracellular Ca2+ inside the cleft are estimated by using acompartmental model incorporating flux across the postsynapticmembrane and radial diffusion from the edges of the cleft. Thesimulations suggest that substantial extracellular Ca2+ depletioncan occur in the clefts during activation of GRCs, particularlyat high stimulation frequencies used to induce long-term potentiation(LTP). Only minimal transitory changes in extracellular Ca2+are observed at low frequencies. These frequency-dependent alterationsin extracellular Ca2+ dynamics are a direct reflection of theactivity of GRCs and could be involved in the modulation ofpresynaptic function via a retrograde messenger mechanism, ifthere are extracellular Ca2+ sensors on the presynaptic membranes.The recently cloned extracellular Ca2(+)-sensing receptors thatare known to be present in nerve terminals in hippocampus andother areas of the brain could potentially play such a role.

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