Axonal trajectories and terminations of on‐and off‐cells in the cat lower brainstem
Two physiologically defined classes of pontomedullary raphe neurons were intracellularly
labeled in order to determine the target nuclei of their axonal projections. In the lightly
anesthetized cat, cells either increased (on‐cells) or decreased (off‐cells) their discharge
rate during the paw withdrawal reflex evoked by noxious pinch or heat. On‐and off‐cells
were injected with horseradish peroxidase and the initial course of labeled axons through
the lower brainstem was reconstructed. On‐cell projections to the pontomedullary raphe and …
labeled in order to determine the target nuclei of their axonal projections. In the lightly
anesthetized cat, cells either increased (on‐cells) or decreased (off‐cells) their discharge
rate during the paw withdrawal reflex evoked by noxious pinch or heat. On‐and off‐cells
were injected with horseradish peroxidase and the initial course of labeled axons through
the lower brainstem was reconstructed. On‐cell projections to the pontomedullary raphe and …
Abstract
Two physiologically defined classes of pontomedullary raphe neurons were intracellularly labeled in order to determine the target nuclei of their axonal projections. In the lightly anesthetized cat, cells either increased (on‐cells) or decreased (off‐cells) their discharge rate during the paw withdrawal reflex evoked by noxious pinch or heat. On‐ and off‐cells were injected with horseradish peroxidase and the initial course of labeled axons through the lower brainstem was reconstructed.
On‐cell projections to the pontomedullary raphe and medial reticular nuclei were sparse. On‐cells projected densely to regions of the lateral reticular formation and the ventrolateral medulla at both rostral and caudal medullary levels. In general, on‐cells had few collaterals and sparse axonal swellings.
In contrast to on‐cells, most off‐cells had axons that collateralized densely within the brainstem raphe and adjacent reticular formation. Such collaterals were either local, within the neuron's dendritic field, or distant, involving a projection of 1–8 mm. One off‐cell had a dense terminal field within the sensory trigeminal complex, a projection that may subserve the inhibition of trigeminal sensory neurons produced by raphe magnus stimulation. Well‐labeled off‐cells had numerous collaterals and dense regions of axonal swellings.
In summary, off‐cells terminated densely in the raphe magnus and adjacent reticular formation whereas on‐cells projected predominantly to the ventrolateral medulla, a region implicated in autonomic control. Local off‐cell collaterals provide an anatomical substrate that would enable off‐cells to coordinate the activity of on‐ and off‐cells through synaptic contacts.
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