A transitional period of Ca2+-dependent spike afterdepolarization and bursting in developing rat CA1 pyramidal cells

doi:10.1113/jphysiol.2005.084590

A transitional period of Ca²⁺-dependent spike afterdepolarization and bursting in developing rat CA1 pyramidal cells

Shmuel Chen¹, Cuiyong Yue¹ and Yoel Yaari¹

¹ Department of Physiology, Institute of Medical Sciences, Hebrew University School of Medicine, Jerusalem 91120, Israel

During postnatal development neurones display discharge behavioursthat are not present in the adult, yet they are essential forthe normal maturation of the nervous system. Neonatal CA1 pyramidalcells, like their adult counterparts, fire regularly, but excitatoryGABAergic transmission drives them to generate spontaneous high-frequencybursts until postnatal day (P) 15. Using intracellular recordingsin hippocampal slices from rats at P8 to P25, we show hereinthat as the network-driven burst activity fades out, most CA1pyramidal cells become intrinsically bursting neurones. Theincidence of intrinsic bursters begins to rise at P11 and attainsa peak of 74% by P18–P19, after which it decreases overthe course of a week, disappearing almost entirely at P25. Analysisof the effects of different voltage-gated Ca²⁺ and Na⁺ channelantagonists, applied focally to proximal and distal parts ofdeveloping neurones, revealed a complex burst mechanism. Intrinsicbursting in developing neurones results from ‘ping-pong’interplay between a back-propagating spike that activates T/R-and L-type voltage-gated Ca²⁺ channels in the distal apicaldendrites and persistent voltage-gated Na⁺ channels in the somaticregion. Thus, developing pyramidal neurones transitionally expressnot only distinctive synaptic properties, but also unique intrinsicfiring patterns, that may contribute to the ongoing formationand refinement of synaptic connections.

(Received 10 February 2005; accepted after revision 23 May 2005; first published online 26 May 2005)
Corresponding author Y. Yaari: Department of Physiology, Hebrew University School of Medicine, PO Box 12272, Jerusalem 91120, Israel. Email: yaari{at}md2.huji.ac.il

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