Cephalopod arms are controlled by a distributed peripheral nervous system comprising the axial nerve cord (ANC), subacetabular ganglia associated with each sucker, four longitudinal intramuscular nerve cords (INCs) embedded within the arm musculature and oblique connectives (OCs) running between INCs. Despite their prominent anatomical position and proposed roles in local sensorimotor integration and inter-arm coordination, the INCs remain poorly characterized with respect to cell-type composition and molecular identity. Here, we report the first integrative characterization of INC structure and composition in Octopus bocki by combining serial block-face scanning electron microscopy (SBEM) with multiplexed hybridization chain reaction (HCR) in situ labeling. We show that oral and aboral INCs share a consistent internal organization comprising distinct cell body regions, a peripheral tract layer, and a central synaptic zone. Both oral and aboral cords contain morphologically diverse cell populations, including abundant bipolar neurons with long unbranched processes and a second class of neurons with highly branched processes bearing bouton-like enlargements. On the molecular level, the sampled INCs are enriched for glutamatergic and buccalin-positive cells, and express abundant glia-associated transcripts. In contrast to the ANC, cholinergic, dopaminergic, serotonergic, and octopaminergic markers were not detected above background. We also characterize the relationship between the INCs and adjacent oblique connectives (OCs), showing that these structures run in close proximity but remain physically separate within the sampled high-resolution volume, with no shared fibers or crossing processes detected across the observed boundary. Together, these data establish a cellular and molecular framework for the INCs and clarify their relationship to neighboring peripheral pathways.
Benedict, J., Engelman, M., Klos, M., Crook, R. J., Winters Bostwick, G.
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