Altered synaptic and non-synaptic properties of CA1 pyramidal neurons in Kv4.2 knockout mice

## Abstract The primary function of neurons is to integrate synaptic inputs and to transmit the results to other cells. It was shown previously that separate excitatory inputs to hippocampal pyramidal neurons are summated nonlinearly. In the hippocampus, responses of pyramidal neurons are influence

## Abstract The induction threshold, and the magnitude and direction of changes in synaptic plasticity may depend on the previous history of neuronal activity. This phenomenon, termed “metaplasticity,” could play an important role in integration processes by coordinating the modulation of synapses.

## Abstract Changes in hippocampal synaptic networks during aging may contribute to age‐dependent compromise of cognitive functions such as learning and memory. Previous studies have demonstrated that GABAergic synaptic transmission exhibits age‐dependent changes. To better understand such age‐depe

## Abstract The heterogeneous expression of voltage‐gated channels in dendrites suggests that neurons perform local microdomain computations at different regions. It has been shown that A‐type K^+^ channels have a nonuniform distribution along the primary apical dendrite in CA1 pyramidal neurons, i