Stimulatory effect of octopamine on juvenile hormone biosynthesis in honey bees ( Apis mellifera): Physiological and immunocytochemical evidence

Abstract

The effect of octopamine on the activity of corpora allata of adult worker honey bees has been examined in vitro and correlated to the local distribution of this biogenic amine in brain and retrocerebral complex as studied immunocytochemically by means of an highly specific antiserum. Octopamine causes a dose-dependent increase in juvenile hormone release from corpora allata. Maximum increase is obtained with concentrations of 10 −6 M in nurse and foraging bees by 45.3 or 32.3%, respectively. Octopamine-like immunoreactivity occurs in about 45 somata of the median neurosecretory cells in the pars intercerebralis of the bee brain. They project via immunopositive nervus corporis cardiaci I into the corpora cardiaca, where interspersed varicose structures and 8–10 cell bodies in the ventral part of this gland are stained. A network of immunoreactive fine varicose nerve fibres surrounds each gland cell of the corpora allata. Immunoreactivity in these neuronal structures is detectable if bees were starved over night, a condition in which corpora allata elicit the highest juvenile hormone production ever observed in bees. Both, the stimulatory effect of octopamine and the presence of immunoreactive nerve fibers in the corpora allata, strongly indicate a physiological role of this biogenic amine in the regulation of juvenile hormone biosynthesis in adult honey bees.