Gigantocellular reticular nucleus

It receives connections from the periaqueductal gray, the paraventricular hypothalamic nucleus, central nucleus of the amygdala, lateral hypothalamic area, and parvocellular reticular nucleus.^{[citation needed]}

It receives afferent corticoreticular fibers from the premotor cortex and supplementary motor area which modulate the activity of reticulospinal and reticulobulbar efferents.^[1]

It receives vestibular, visual, and auditory afferents to mediate head-eye movement coordination.^[1]

It receives excitatory enkephalinergic afferents from the periaqueductal gray which influence its descending pain-inhibiting efferents.^[1]

It gives rise to the lateral (medullary) reticulospinal tract (which excites flexors and inhibits extensors of the muscles of the axial and proximal limbs).^[1]

It is also involved in coordination of head-eye movements (receiving visual, vestibular, and auditory information to this end).^[1]

The GGRN forms part of the vasodepressor center which projects through the reticulobulbar tract to synapse upon pre-ganglionic parasympathetic neurons of the nucleus of vagus nerve. It acts to decrease blood pressure by decreasing heart chronotropy (rate) by increasing vagal parasympathetic outflow to the heart.^[1]

GGRN induces inspiration (whereas the parvocellular nucleus causes expiration).^[1]

The GGRN - together with the nucleus raphe magnus - gives rise to the descending serotonergic raphespinal tract which projects to the spinal cord to inhibit transmission of pain stimuli. The serotonergic analgesic component of the GGRN receives excitatory enkephalinergic afferents from the periaqueductal gray.^[1]

It also receives inputs from the pedunculopontine nucleus.