RRC ID 70757
著者 Bai Y, Suzuki T.
タイトル Activity-dependent circuitry plasticity via the regulation of the histamine receptor level in the Drosophila visual system.
ジャーナル Mol Cell Neurosci
Abstract Activity-dependent synaptic plasticity is crucial for responses to the environment. Although the plasticity mechanisms of presynaptic photoreceptor neurons in the Drosophila visual system have been well studied, postsynaptic modifications remain elusive. In addition, further studies on the adaption of the visual system to different light experiences at a circuitry scale are required. Using the modified transcriptional reporter of intracellular Ca2+ method, we describe a way to visualize circuitry changes according to different light experiences. We found enhanced postsynaptic neuronal activity responses in lamina monopolar neuron L2 after prolonged light treatment. Although L1 also has connections with photoreceptors, there were no enhanced activity responses in L1. We also report in this study that activity-dependent transcriptional downregulation of inhibitory histamine receptor (HR), Ort, occurs in postsynaptic neuron L2, but not in L1, during continuous light conditions. We produced exogenous Ort proteins in L2 neurons and found that it attenuated the enhanced activity response caused by constant light exposure. These findings, together with the fact that histamine is the main inhibitory neurotransmitter released by photoreceptors in the Drosophila visual system, confirmed our hypothesis that the activity-dependent transcriptional downregulation of HR is responsible for the constant light exposure-induced circuitry response changes in L2. The results successfully demonstrated the selective circuit change after synaptic remodeling evoked by long-term activation and provided in vivo evidence of circuitry plasticity upon long-term environmental stimulation.
巻・号 119
ページ 103703
公開日 2022-3-1
DOI 10.1016/j.mcn.2022.103703
PII S1044-7431(22)00009-4
PMID 35122941
MeSH Animals Drosophila* / metabolism Drosophila Proteins* / metabolism Neuronal Plasticity / physiology Photoreceptor Cells, Invertebrate / metabolism Receptors, Histamine / metabolism Synapses / metabolism
IF 3.182
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