Eriko Tsuji, Hitoshi Aonuma, Fumio Yokohari, Michiko Nishikawa
Zoological Science 24 (8), 836-849, (1 August 2007) https://doi.org/10.2108/zsj.24.836
KEYWORDS: 5-HT, social insect, insect brain, mushroom body, antennal lobe, glomeruli, AL antennal lobe, CC central complex, CIN calycal input neuron, DC deutocerebrum, DL dorsal lobe, DPN deutocerebral projection neuron, GAL giant neuron innervating the AL, LP lateral protocerebrum, MB mushroom body, OL optic lobe, PC protocerebrum, SOG subesophageal ganglion
Social Hymenoptera such as ants or honeybees are known for their extensive behavioral repertories and plasticity. Neurons containing biogenic amines appear to play a major role in controlling behavioral plasticity in these insects. Here we describe the morphology of prominent serotonin-immunoreactive neurons of the antennal sensory system in the brain of an ant, Camponotus japonicus. Immunoreactive fibers were distributed throughout the brain and the subesophageal ganglion (SOG). The complete profile of a calycal input neuron was identified. The soma and dendritic elements are contralaterally located in the lateral protocerebrum. The neuron supplies varicose axon terminals in the lip regions of the calyces of the mushroom body, axon collaterals in the basal ring but not in the collar region, and other axon terminals ipsilaterally in the lateral protocerebrum. A giant neuron innervating the antennal lobe has varicose axon terminals in most of 300 glomeruli in the ventral region of the antennal lobe (AL) and a thick neurite that spans the entire SOG and continues towards the thoracic ganglia. However, neither a soma nor a dendritic element of this neuron was found in the brain or the SOG. A deutocerebral projection neuron has a soma in the lateral cell-body group of the AL, neuronal branches at most of the 12 glomeruli in the dorsocentral region of the ipsilateral AL, and varicose terminal arborizations in both hemispheres of the protocerebrum. Based on the present results, tentative subdivisions in neuropils related to the antennal sensory system of the ant brain are discussed.