Cited by Aminergic and peptidergic modulation of Insulin-Producing Cells in Drosophila

Aminergic and peptidergic modulation of Insulin-Producing Cells in Drosophila DOI

et al.

eLife, Journal Year: 2024, Volume and Issue: unknown

Published: Sept. 10, 2024

Insulin plays a critical role in maintaining metabolic homeostasis. Since demands are highly dynamic, insulin release needs to be constantly adjusted. These adjustments mediated by different pathways, most prominently the blood glucose level, but also feedforward signals from motor circuits and neuromodulatory systems. Here, we analyze how inputs control activity of main source Drosophila - population insulin-producing cells (IPCs) located brain. IPCs functionally analogous mammalian pancreatic beta cells, their location makes them accessible for vivo recordings intact animals. We characterized functional using single-nucleus RNA sequencing analysis, anatomical receptor expression mapping, connectomics, an optogenetics-based 'intrinsic pharmacology' approach. Our results show that IPC expresses variety receptors neuromodulators classical neurotransmitters. Interestingly, exhibit heterogeneous profiles, suggesting can modulated differentially. This is supported electrophysiological IPCs, which performed while activating populations modulatory neurons. analysis revealed some have effects on activity, such they inhibit one subset exciting another. Monitoring calcium across uncovered these responses occur simultaneously. Certain shifted towards excited state, others it inhibition. Taken together, provide comprehensive, multi-level neuromodulation insulinergic system Drosophila.

Language: Английский

Aminergic and peptidergic modulation of Insulin-Producing Cells in Drosophila DOI

Martina Held, Rituja S Bisen, Meet Zandawala

et al.

Published: Feb. 10, 2025

Insulin plays a critical role in maintaining metabolic homeostasis. Since demands are highly dynamic, insulin release needs to be constantly adjusted. These adjustments mediated by different pathways, most prominently the blood glucose level, but also feedforward signals from motor circuits and neuromodulatory systems. Here, we analyze how inputs control activity of main source Drosophila – population Insulin-Producing Cells (IPCs) located brain. IPCs functionally analogous mammalian pancreatic beta cells, their location makes them accessible for vivo recordings intact animals. We characterized functional using single-nucleus RNA sequencing analysis, anatomical receptor expression mapping, connectomics, an optogenetics-based ‘intrinsic pharmacology’ approach. Our results show that IPC expresses variety receptors neuromodulators classical neurotransmitters. Interestingly, exhibit heterogeneous profiles, suggesting can modulated differentially. This is supported electrophysiological IPCs, which performed while activating populations modulatory neurons. analysis revealed some have effects on activity, such they inhibit one subset exciting another. Monitoring calcium across uncovered these responses occur simultaneously. Certain shifted towards excited state, others it inhibition. Taken together, provide comprehensive, multi-level neuromodulation insulinergic system .

Language: Английский

Citations

What Drosophila can tell us about state-dependent peptidergic signaling in insects DOI

Dick R. Nässel

Insect Biochemistry and Molecular Biology, Journal Year: 2025, Volume and Issue: unknown, P. 104275 - 104275

Published: Feb. 1, 2025

Language: Английский

Citations

Aminergic and peptidergic modulation of insulin-producing cells in Drosophila DOI

Martina Held, Rituja S Bisen, Meet Zandawala

et al.

eLife, Journal Year: 2025, Volume and Issue: 13

Published: March 10, 2025

Insulin plays a critical role in maintaining metabolic homeostasis. Since demands are highly dynamic, insulin release needs to be constantly adjusted. These adjustments mediated by different pathways, most prominently the blood glucose level, but also feedforward signals from motor circuits and neuromodulatory systems. Here, we analyze how inputs control activity of main source Drosophila – population insulin-producing cells (IPCs) located brain. IPCs functionally analogous mammalian pancreatic beta cells, their location makes them accessible for vivo recordings intact animals. We characterized functional using single-nucleus RNA sequencing analysis, anatomical receptor expression mapping, connectomics, an optogenetics-based ‘intrinsic pharmacology’ approach. Our results show that IPC expresses variety receptors neuromodulators classical neurotransmitters. Interestingly, exhibit heterogeneous profiles, suggesting can modulated differentially. This is supported electrophysiological IPCs, which performed while activating populations modulatory neurons. analysis revealed some have effects on activity, such they inhibit one subset exciting another. Monitoring calcium across uncovered these responses occur simultaneously. Certain shifted towards excited state, others it inhibition. Taken together, provide comprehensive, multi-level neuromodulation insulinergic system .

Language: Английский

Citations

Aminergic and peptidergic modulation of Insulin-Producing Cells inDrosophila DOI

Martina Held, Rituja S Bisen, Meet Zandawala

et al.

bioRxiv (Cold Spring Harbor Laboratory), Journal Year: 2023, Volume and Issue: unknown

Published: Sept. 14, 2023

Insulin plays a critical role in maintaining metabolic homeostasis. Since demands are highly dynamic, insulin release needs to be constantly adjusted. These adjustments mediated by different pathways, most prominently the blood glucose level, but also feedforward signals from motor circuits and neuromodulatory systems. Here, we analyze how inputs control activity of main source Drosophila – population Insulin-Producing Cells (IPCs) located brain. IPCs functionally analogous mammalian pancreatic beta cells, their location makes them accessible for vivo recordings intact animals. We characterized functional using single-nucleus RNA sequencing analysis, anatomical receptor expression mapping, connectomics, an optogenetics-based ‘intrinsic pharmacology’ approach. Our results show that IPC expresses variety receptors neuromodulators classical neurotransmitters. Interestingly, exhibit heterogeneous profiles, suggesting can modulated differentially. This is supported electrophysiological IPCs, which performed while activating populations modulatory neurons. analysis revealed some have effects on activity, such they inhibit one subset exciting another. Monitoring calcium across uncovered these responses occur simultaneously. Certain shifted towards excited state, others it inhibition. Taken together, provide comprehensive, multi-level neuromodulation insulinergic system .

Language: Английский

Citations

Aminergic and peptidergic modulation of Insulin-Producing Cells in Drosophila DOI

Martina Held, Rituja S Bisen, Meet Zandawala

et al.

eLife, Journal Year: 2024, Volume and Issue: unknown

Published: Sept. 10, 2024

Language: Английский

Citations