Fine structure of a developing insect olfactory organ: Morphogenesis of the silkmoth antenna

Abstract

The olfactory organ of the silkmoth Antheraea polyhemus is the feathered antenna which carries about 70,000 olfactory sensilla in the male. It develops within 3 weeks from a leaf‐shaped epidermal sac by means of segmental primary and secondary indentations which proceed from the periphery towards the centerline. During the first day post‐apolysis, the antennal epidermis differentiates into segmentally arranged, alternating sensillogenic and non‐sensillogenic regions. Within the first 2 days post‐apolysis, the anlagen of olfactory sensilla arise from electron‐dense mother cells in the sensillogenic epidermis. The axons of the developing sensilla begin to form the primary innervation pattern during the second day. The sensilla develop approximately within the first 10 days to their final shape, while the indentations are completed during the same period of time. The indentations are most probably driven by long basal extensions of epidermal cells, the epidermal feet. Primary indentations follow the course of segmentally arranged tracheal bundles and form the segments of the antenna. The secondary indentations follow the course of the primary segmental nerves which are reconstructed by this process. During the remaining time of development, the cuticle of the antenna and the sensory hairs is secreted by the epidermal and the hair‐forming cells.