The projection of neuroendocrine fibers (NCC I and II) in the brains of three orthopteroid insects

Abstract

Neuronal projections from neuroendocrine tracts (nervi corpori cordiaci I and II) in the brains of the locust (Schistocerca vaga), cricket (Acheta domesticus), and cockroach (Periplaneta americana) were studied using reconstructions of silver-intensified cobalt chloride preparations. Collaterals from the NCC I in these species branch extensively in the dorsal protocerebral neuropile, anterior to the stalk of the corpora pedunculata and ventral to its calyces. Other fibers project from the NCC I bilaterally into the medial protocerebral neuropile, anterior to the central body, and posterior to the beta lobes. NCC II collaterals arborize in the medial, dorsal, and lateral protocerebral neuropile, their region of projection partially overlapping with that of the NCC I. Several NCC II fibers terminate in the superior arch of the central body in Acheta but not in the other two species. Tritocerebral cells filled through the NCC I branch in the medial tritocerebral neuropile in all three species, but most extensively in Schistocerca. No NCC fibers were seen to penetrate any part of the corpora pedunculata, protocerebral bridge, olfactory glomeruli, ocellar tracts, or optic lobes. These neuronal projections from the NCC I and II lie anterior to regions of branching of second-order ocellar fibers and thus provide no anatomical basis for direct ocellar input to neurosecretory cells, contrary to previous reports for orthopteroid species (Brousse-Gaury, '71a, b). However, interneurons filled from the optic lobes were found to terminate in the same region of dorsal protocerebral neuropile as NCC I and II fibers in Acheta, thus providing a possible pathway for optic input to the cerebral neuroendocrine system.