부산대학교 도서관

GABA is the most abundant neurotransmitter in the circadian pacemaker circuits of mammals and insects. In the Madeira cockroach the accessory medulla (AME) in the brain′s optic lobes is the circadian clock that orchestrates rest‐activity rhythms in synchrony with light dark cycles. Three prominent GABAergic tracts connect the AME to termination sites of compound eye photoreceptors in the lamina and medulla. Parallel GABAergic light entrainment pathways were suggested to either advance or delay the clock for adjustment to changing photoperiods. In agreement with this hypothesis GABA activated or inhibited AME clock neurons, allowing for the distinction of three different GABA response types. Here, we examined which GABA receptors are responsible for these response types. We found that both ionotropic GABAA receptors and metabotropic GABAB receptors were expressed in AME clock cells. Via different signalling pathways, either one of them could account for all three GABA response types. The muscimol‐dependently activated GABAA receptor formed a chloride channel, while the SKF 97541‐dependently activated GABAB receptor signalled via G‐proteins, apparently targeting potassium channels. Expression of chloride exporters or importers determined whether GABAA receptor activation hyper‐ or depolarized AME neurons. For GABAB receptor responses second messenger gated channels present in the clock cells appeared to decide about the polarity of the GABA response. In summary, circadian clock neurons co‐expressed inhibitory and/or excitatory GABAA and GABAB receptors in various combinations, while cotransporter expression and the set of second messenger gated ion channels present allowed for distinct signalling in different clock neurons. [ABSTRACT FROM AUTHOR]