Abstract
Rodent neocortical neurons undergo prominent postnatal development and maturation. The process is associated with structural and functional maturation of the axon initial segment (AIS), the site of action potential initiation. In this regard, cell size and optimal AIS length are interconnected. In sensory cortices, developmental onset of sensory input and consequent changes in network activity cause phasic AIS plasticity that can also control functional output. In non-sensory cortices, network input driving phasic events should be less prominent. We, therefore, explored the relationship between postnatal functional maturation and AIS maturation in principal neurons of the primary motor cortex layer V (M1LV), a non-sensory area of the rat brain. We hypothesized that a rather continuous process of AIS maturation and elongation would reflect cell growth, accompanied by progressive refinement of functional output properties. We found that, in the first two postnatal weeks, cell growth prompted substantial decline of neuronal input resistance, such that older neurons needed larger input current to reach rheobase and fire action potentials. In the same period, we observed the most prominent AIS elongation and significant maturation of functional output properties. Alternating phases of AIS plasticity did not occur, and changes in functional output properties were largely justified by AIS elongation. From the third postnatal week up to five months of age, cell growth, AIS elongation, and functional output maturation were marginal. Thus, AIS maturation in M1LV is a continuous process that attunes the functional output of pyramidal neurons and associates with early postnatal development to counterbalance increasing electrical leakage due to cell growth.
Highlights
The axon initial segment (AIS) is an electrogenic microdomain located at the proximal axon
We addressed postnatal AIS development and intrinsic physiological properties of rat M1 layer V pyramidal neurons (M1LV neurons), which are the main recipients of columnar inter-laminar excitatory synaptic input and a source of corticofugal output [20]
Increase in Cell Size and AIS Elongation Are Synchronized in the First Postnatal Weeks
Summary
The axon initial segment (AIS) is an electrogenic microdomain located at the proximal axon. Early postnatal development of cortical neurons involves discrete synchronous intrinsic and extrinsic factors, the increase of cellular volume and synaptic input, which should affect AIS maturation. We hypothesized that maturing output neurons of the primary motor cortex (M1) undergo a monophasic process of AIS elongation during early postnatal development, which accompanies the progressive increase in cell volume and leads to gradual maturation of physiological output. Based on the course of rat postnatal development [14] and on the dynamics of synaptic remodeling [21], our analysis focused more extensively on the development of AISs and the functional output of M1LV in the early postnatal weeks After this critical period, progressive refinement of connectivity and further intrinsic functional maturation are expected to endure until approximately two months of age [22]
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