Synaptic connectome of a neurosecretory network in the Drosophila brain DOI Creative Commons
Theresa H. McKim, Jayati Gera,

Ariana Julia B. Gayban

et al.

bioRxiv (Cold Spring Harbor Laboratory), Journal Year: 2024, Volume and Issue: unknown

Published: Aug. 29, 2024

Abstract Hormones mediate inter-organ signaling which is crucial in orchestrating diverse behaviors and physiological processes including sleep activity, feeding, growth, metabolism reproduction. The pars intercerebralis lateralis insects represent major hubs contain neurosecretory cells (NSC) that produce various hormones. To obtain insight into how hormonal regulated, we have characterized the synaptic connectome of NSC adult Drosophila brain. Identification neurons providing inputs to multiple subtypes implicates diuretic hormone 44-expressing as a coordinator physiology behavior. Surprisingly, despite most having dendrites subesophageal zone (primary taste processing center), gustatory are largely indirect. We also deciphered pathways via olfactory relayed NSC. Further, our analyses revealed substantial from descending NSC, suggesting regulate both endocrine motor output synchronize changes with appropriate behaviors. In contrast inputs, sparse mostly mediated by corazonin Therefore, additionally determine putative paracrine interconnectivity between peripheral tissues analyzing single-cell transcriptomic datasets. Our comprehensive characterization network provides platform understand complex networks they orchestrate animal physiology.

Language: Английский

Synaptic connectome of a neurosecretory network in the Drosophila brain DOI Creative Commons
Theresa H. McKim, Jayati Gera,

Ariana Julia B. Gayban

et al.

bioRxiv (Cold Spring Harbor Laboratory), Journal Year: 2024, Volume and Issue: unknown

Published: Aug. 29, 2024

Abstract Hormones mediate inter-organ signaling which is crucial in orchestrating diverse behaviors and physiological processes including sleep activity, feeding, growth, metabolism reproduction. The pars intercerebralis lateralis insects represent major hubs contain neurosecretory cells (NSC) that produce various hormones. To obtain insight into how hormonal regulated, we have characterized the synaptic connectome of NSC adult Drosophila brain. Identification neurons providing inputs to multiple subtypes implicates diuretic hormone 44-expressing as a coordinator physiology behavior. Surprisingly, despite most having dendrites subesophageal zone (primary taste processing center), gustatory are largely indirect. We also deciphered pathways via olfactory relayed NSC. Further, our analyses revealed substantial from descending NSC, suggesting regulate both endocrine motor output synchronize changes with appropriate behaviors. In contrast inputs, sparse mostly mediated by corazonin Therefore, additionally determine putative paracrine interconnectivity between peripheral tissues analyzing single-cell transcriptomic datasets. Our comprehensive characterization network provides platform understand complex networks they orchestrate animal physiology.

Language: Английский

Citations

5