Quantal transmission at mossy fibre targets in the CA3 region of the rat hippocampus

doi:10.1113/jphysiol.2003.049551

Quantal transmission at mossy fibre targets in the CA3 region of the rat hippocampus

J. Josh Lawrence, Zachary M. Grinspan and Chris J. McBain

Laboratory of Cellular and Synaptic Neurophysiology, NICHD, NIH, Bethesda, MD 20892-4495, USA

Recent anatomical evidence that inhibitory interneurones receiveapproximately 10 times more synapses from mossy fibres thando principal neurones (Acsády et al. 1998) has led tothe re-examination of the extent to which interneurones areinvolved in CA3 network excitability. Although many of the anatomicaland physiological properties of mossy fibre–CA3 interneuronesynapses have been previously described (Acsády et al. 1998;Tóth et al. 2000), an investigation into the quantalnature of transmission at this synapse has not yet been conducted.Here, we employed variance–mean (VM) analysis to comparethe release probability, quantal size (q) and number of releasesites (n) at mossy fibre target neurones in CA3. At six of seveninterneurone synapses in which a high concentration of Ca²⁺was experimentally imposed, the variance–mean relationshipcould be approximated by a parabola. Estimates of n were 1–2,and the weighted release probability in normal Ca²⁺ conditionsranged from 0.34 to 0.51. At pyramidal cell synapses, the variance–meanrelationship approximated a linear relationship, suggestingthat release probability was significantly lower. The weightedquantal amplitude was similar at interneurone synapses and pyramidalcell synapses, although the variability in quantal amplitudewas larger at interneurone synapses. Mossy fibre transmissionat CA3 interneurone synapses can be explained by a lower numberof release sites, a broader range of release probabilities,and larger range of quantal amplitudes than at CA3 pyramidalsynapses. Finally, quantal events on to interneurones elicitedspike transmission, owing in part to the more depolarized membranepotential than pyramidal cells. These results suggest that althoughmossy fibre synapses on to pyramidal cells are associated witha larger number of release sites per synapse, the higher connectivity,higher initial release probability, and larger relative impactper quantum on to CA3 interneurones generate strong feedforwardinhibition at physiological firing frequencies of dentate granulecells. Given the central role of CA3 interneurones in mossyfibre synaptic transmission, these details of mossy fibre synaptictransmission should provide insight into CA3 network dynamicsunder both physiological and pathophysiological circumstances.

(Received 19 June 2003; accepted after revision 28 October 2003; first published online 31 October 2003)
Corresponding author J. J. Lawrence: Building 49, Room 5A60, NICHD-LCSN, Bethesda, MD 20892, USA. Email: lawrence{at}codon.nih.gov

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