Presynaptic regulation of neurotransmission in Drosophila by the G protein-coupled receptor Methuselah

Wei Song; Ravi Ranjan; Ken Dawson-Scully; Peter Bronk; Leo Marin; Laurent Seroude; Yi Jyun Lin; Zhiping Nie; Harold L. Atwood; Seymour Benzer; Konrad E. Zinsmaier

doi:10.1016/S0896-6273(02)00932-7

Presynaptic regulation of neurotransmission in Drosophila by the G protein-coupled receptor Methuselah

Wei Song
, Ravi Ranjan
, Ken Dawson-Scully
, Peter Bronk
, Leo Marin
, Laurent Seroude
, Yi Jyun Lin
, Zhiping Nie
, Harold L. Atwood
, Seymour Benzer
, Konrad E. Zinsmaier

Research output: Contribution to journal › Article › peer-review

Abstract

Regulation of synaptic strength is essential for neuronal information processing, but the molecular mechanisms that control changes in neuroexocytosis are only partially known. Here we show that the putative G protein-coupled receptor Methuselah (Mth) is required in the presynaptic motor neuron to acutely upregulate neurotransmitter exocytosis at larval Drosophila NMJs. Mutations in the mth gene reduce evoked neurotransmitter release by ∼50%, and decrease synaptic area and the density of docked and clustered vesicles. Pre- but not postsynaptic expression of normal Mth restored normal release in mth mutants. Conditional expression of Mth restored normal release and normal vesicle docking and clustering but not the reduced size of synaptic sites, suggesting that Mth acutely adjusts vesicle trafficking to synaptic sites.

Original language	English
Pages (from-to)	105-119
Number of pages	15
Journal	Neuron
Volume	36
Issue number	1
DOIs	https://doi.org/10.1016/S0896-6273(02)00932-7
State	Published - Sep 26 2002
Externally published	Yes

ASJC Scopus Subject Areas

General Neuroscience

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10.1016/S0896-6273(02)00932-7

Cite this

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title = "Presynaptic regulation of neurotransmission in Drosophila by the G protein-coupled receptor Methuselah",

abstract = "Regulation of synaptic strength is essential for neuronal information processing, but the molecular mechanisms that control changes in neuroexocytosis are only partially known. Here we show that the putative G protein-coupled receptor Methuselah (Mth) is required in the presynaptic motor neuron to acutely upregulate neurotransmitter exocytosis at larval Drosophila NMJs. Mutations in the mth gene reduce evoked neurotransmitter release by ∼50\%, and decrease synaptic area and the density of docked and clustered vesicles. Pre- but not postsynaptic expression of normal Mth restored normal release in mth mutants. Conditional expression of Mth restored normal release and normal vesicle docking and clustering but not the reduced size of synaptic sites, suggesting that Mth acutely adjusts vesicle trafficking to synaptic sites.",

author = "Wei Song and Ravi Ranjan and Ken Dawson-Scully and Peter Bronk and Leo Marin and Laurent Seroude and Lin, \{Yi Jyun\} and Zhiping Nie and Atwood, \{Harold L.\} and Seymour Benzer and Zinsmaier, \{Konrad E.\}",

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doi = "10.1016/S0896-6273(02)00932-7",

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AU - Song, Wei

AU - Ranjan, Ravi

AU - Dawson-Scully, Ken

AU - Bronk, Peter

AU - Marin, Leo

AU - Seroude, Laurent

AU - Lin, Yi Jyun

AU - Nie, Zhiping

AU - Atwood, Harold L.

AU - Benzer, Seymour

AU - Zinsmaier, Konrad E.

PY - 2002/9/26

Y1 - 2002/9/26

N2 - Regulation of synaptic strength is essential for neuronal information processing, but the molecular mechanisms that control changes in neuroexocytosis are only partially known. Here we show that the putative G protein-coupled receptor Methuselah (Mth) is required in the presynaptic motor neuron to acutely upregulate neurotransmitter exocytosis at larval Drosophila NMJs. Mutations in the mth gene reduce evoked neurotransmitter release by ∼50%, and decrease synaptic area and the density of docked and clustered vesicles. Pre- but not postsynaptic expression of normal Mth restored normal release in mth mutants. Conditional expression of Mth restored normal release and normal vesicle docking and clustering but not the reduced size of synaptic sites, suggesting that Mth acutely adjusts vesicle trafficking to synaptic sites.

AB - Regulation of synaptic strength is essential for neuronal information processing, but the molecular mechanisms that control changes in neuroexocytosis are only partially known. Here we show that the putative G protein-coupled receptor Methuselah (Mth) is required in the presynaptic motor neuron to acutely upregulate neurotransmitter exocytosis at larval Drosophila NMJs. Mutations in the mth gene reduce evoked neurotransmitter release by ∼50%, and decrease synaptic area and the density of docked and clustered vesicles. Pre- but not postsynaptic expression of normal Mth restored normal release in mth mutants. Conditional expression of Mth restored normal release and normal vesicle docking and clustering but not the reduced size of synaptic sites, suggesting that Mth acutely adjusts vesicle trafficking to synaptic sites.

UR - https://www.scopus.com/pages/publications/18644384689

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U2 - 10.1016/S0896-6273(02)00932-7

DO - 10.1016/S0896-6273(02)00932-7

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VL - 36

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JO - Neuron

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Presynaptic regulation of neurotransmission in Drosophila by the G protein-coupled receptor Methuselah

Abstract

ASJC Scopus Subject Areas

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