G.K. Pyapali scite author profile

Dendritic morphology and passive cable properties determine many aspects of synaptic integration in complex neurons, together with voltage-dependent membrane conductances. We investigated dendritic properties of CA1 pyramidal neurons intracellularly labeled during in vivo and in vitro physiologic recordings, by using similar intracellular staining and three-dimensional reconstruction techniques. Total dendritic length of the in vivo neurons was similar to that of the in vitro cells. After correction for shrinkage, cell extent in three-dimensional representation was not different between the two groups. Both in vivo and in vitro neurons demonstrated a variable degree of symmetry, with some neurons showing more cylindrical symmetry around the main apical axis, whereas other neurons were more elliptical, with the variation likely due to preparation and preservation conditions. Branch order analysis revealed no difference in the number of branch orders or dendritic complexity. Passive conduction of dendritic signals to the soma in these neurons shows considerable attenuation, particularly with higher frequency signals (such as synaptic potentials compared with steady-state signals), despite a relatively short electrotonic length. Essential aspects of morphometric appearance and complex dendritic integration critical to CA1 pyramidal cell functioning are preserved across neurons defined from the two different hippocampal preparations used in this study.

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G.K. Pyapali

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Dendritic properties of hippocampal CA1 pyramidal neurons in the rat: Intracellular staining in vivo and in vitro

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