The Anaphase-Promoting Complex (APC) ubiquitin ligase regulates GABA transmission at the C. elegans neuromuscular junction

Regulation of both excitatory and inhibitory synaptic transmission is critical for proper nervous system function. Aberrant synaptic signaling, including altered excitatory to inhibitory balance, is observed in numerous neurological diseases. The ubiquitin enzyme system controls the abundance of man...

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Veröffentlicht in:	Molecular and cellular neuroscience 2014-01, Vol.58, p.62-75
Hauptverfasser:	Kowalski, Jennifer R., Dube, Hitesh, Touroutine, Denis, Rush, Kristen M., Goodwin, Patricia R., Carozza, Marc, Didier, Zachary, Francis, Michael M., Juo, Peter
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Sprache:	eng
Schlagworte:	Anaphase-Promoting Complex Anaphase-Promoting Complex-Cyclosome - genetics Anaphase-Promoting Complex-Cyclosome - metabolism Animals Caenorhabditis elegans Caenorhabditis elegans - metabolism Caenorhabditis elegans - physiology Caenorhabditis elegans Proteins - metabolism GABA GABAergic Neurons - metabolism GABAergic Neurons - physiology gamma-Aminobutyric Acid - metabolism Intercellular Signaling Peptides and Proteins Motor Neurons - metabolism Motor Neurons - physiology Mutation Neuromuscular Junction - metabolism Neuromuscular Junction - physiology NMJ Phosphoproteins - metabolism Protein Transport Synapse Synaptic Transmission Ubiquitin ligase
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container_title	Molecular and cellular neuroscience
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creator	Kowalski, Jennifer R. Dube, Hitesh Touroutine, Denis Rush, Kristen M. Goodwin, Patricia R. Carozza, Marc Didier, Zachary Francis, Michael M. Juo, Peter
description	Regulation of both excitatory and inhibitory synaptic transmission is critical for proper nervous system function. Aberrant synaptic signaling, including altered excitatory to inhibitory balance, is observed in numerous neurological diseases. The ubiquitin enzyme system controls the abundance of many synaptic proteins and thus plays a key role in regulating synaptic transmission. The Anaphase-Promoting Complex (APC) is a multi-subunit ubiquitin ligase that was originally discovered as a key regulator of protein turnover during the cell cycle. More recently, the APC has been shown to function in postmitotic neurons, where it regulates diverse processes such as synapse development and synaptic transmission at glutamatergic synapses. Here we report that the APC regulates synaptic GABA signaling by acting in motor neurons to control the balance of excitatory (acetylcholine) to inhibitory (GABA) transmission at the Caenorhabditis elegans neuromuscular junction (NMJ). Loss-of-function mutants in multiple APC subunits have increased muscle excitation at the NMJ; this phenotype is rescued by expression of the missing subunit in GABA neurons. Quantitative imaging and electrophysiological analyses indicate that APC mutants have decreased GABA release but normal cholinergic transmission. Consistent with this, APC mutants exhibit convulsions in a seizure assay sensitive to reductions in GABA signaling. Previous studies in other systems showed that the APC can negatively regulate the levels of the active zone protein SYD-2 Liprin-α. Similarly, we found that SYD-2 accumulates in APC mutants at GABAergic presynaptic sites. Finally, we found that the APC subunit EMB-27 CDC16 can localize to presynapses in GABA neurons. Together, our data suggest a model in which the APC acts at GABAergic presynapses to promote GABA release and inhibit muscle excitation. These findings are the first evidence that the APC regulates transmission at inhibitory synapses and have implications for understanding nervous system pathologies, such as epilepsy, that are characterized by misregulated GABA signaling.
doi_str_mv	10.1016/j.mcn.2013.12.001
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Aberrant synaptic signaling, including altered excitatory to inhibitory balance, is observed in numerous neurological diseases. The ubiquitin enzyme system controls the abundance of many synaptic proteins and thus plays a key role in regulating synaptic transmission. The Anaphase-Promoting Complex (APC) is a multi-subunit ubiquitin ligase that was originally discovered as a key regulator of protein turnover during the cell cycle. More recently, the APC has been shown to function in postmitotic neurons, where it regulates diverse processes such as synapse development and synaptic transmission at glutamatergic synapses. Here we report that the APC regulates synaptic GABA signaling by acting in motor neurons to control the balance of excitatory (acetylcholine) to inhibitory (GABA) transmission at the Caenorhabditis elegans neuromuscular junction (NMJ). Loss-of-function mutants in multiple APC subunits have increased muscle excitation at the NMJ; this phenotype is rescued by expression of the missing subunit in GABA neurons. Quantitative imaging and electrophysiological analyses indicate that APC mutants have decreased GABA release but normal cholinergic transmission. Consistent with this, APC mutants exhibit convulsions in a seizure assay sensitive to reductions in GABA signaling. Previous studies in other systems showed that the APC can negatively regulate the levels of the active zone protein SYD-2 Liprin-α. Similarly, we found that SYD-2 accumulates in APC mutants at GABAergic presynaptic sites. Finally, we found that the APC subunit EMB-27 CDC16 can localize to presynapses in GABA neurons. Together, our data suggest a model in which the APC acts at GABAergic presynapses to promote GABA release and inhibit muscle excitation. 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Aberrant synaptic signaling, including altered excitatory to inhibitory balance, is observed in numerous neurological diseases. The ubiquitin enzyme system controls the abundance of many synaptic proteins and thus plays a key role in regulating synaptic transmission. The Anaphase-Promoting Complex (APC) is a multi-subunit ubiquitin ligase that was originally discovered as a key regulator of protein turnover during the cell cycle. More recently, the APC has been shown to function in postmitotic neurons, where it regulates diverse processes such as synapse development and synaptic transmission at glutamatergic synapses. Here we report that the APC regulates synaptic GABA signaling by acting in motor neurons to control the balance of excitatory (acetylcholine) to inhibitory (GABA) transmission at the Caenorhabditis elegans neuromuscular junction (NMJ). Loss-of-function mutants in multiple APC subunits have increased muscle excitation at the NMJ; this phenotype is rescued by expression of the missing subunit in GABA neurons. Quantitative imaging and electrophysiological analyses indicate that APC mutants have decreased GABA release but normal cholinergic transmission. Consistent with this, APC mutants exhibit convulsions in a seizure assay sensitive to reductions in GABA signaling. Previous studies in other systems showed that the APC can negatively regulate the levels of the active zone protein SYD-2 Liprin-α. Similarly, we found that SYD-2 accumulates in APC mutants at GABAergic presynaptic sites. Finally, we found that the APC subunit EMB-27 CDC16 can localize to presynapses in GABA neurons. Together, our data suggest a model in which the APC acts at GABAergic presynapses to promote GABA release and inhibit muscle excitation. These findings are the first evidence that the APC regulates transmission at inhibitory synapses and have implications for understanding nervous system pathologies, such as epilepsy, that are characterized by misregulated GABA signaling.</description><subject>Anaphase-Promoting Complex</subject><subject>Anaphase-Promoting Complex-Cyclosome - genetics</subject><subject>Anaphase-Promoting Complex-Cyclosome - metabolism</subject><subject>Animals</subject><subject>Caenorhabditis elegans</subject><subject>Caenorhabditis elegans - metabolism</subject><subject>Caenorhabditis elegans - physiology</subject><subject>Caenorhabditis elegans Proteins - metabolism</subject><subject>GABA</subject><subject>GABAergic Neurons - metabolism</subject><subject>GABAergic Neurons - physiology</subject><subject>gamma-Aminobutyric Acid - metabolism</subject><subject>Intercellular Signaling Peptides and Proteins</subject><subject>Motor Neurons - metabolism</subject><subject>Motor Neurons - physiology</subject><subject>Mutation</subject><subject>Neuromuscular Junction - metabolism</subject><subject>Neuromuscular Junction - physiology</subject><subject>NMJ</subject><subject>Phosphoproteins - metabolism</subject><subject>Protein Transport</subject><subject>Synapse</subject><subject>Synaptic Transmission</subject><subject>Ubiquitin ligase</subject><issn>1044-7431</issn><issn>1095-9327</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2014</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkUFv1DAQhSMEoqXwA7ggH8shwWM7iS0kpBCVglSJHsrZcryTrFeJs7WTqvDr69WWCi5wsqX3vaeZeVn2FmgBFKoPu2KyvmAUeAGsoBSeZadAVZkrzurnh78QeS04nGSvYtxRSkum-MvshAnOQJTiNPt1s0XSeLPfmoj5dZineXF-IO087Ue8J-fNdfuerJ27XV0SyOiGBJKAwzqaBSO5bD43ZAnGx8nF6GZPzEKWFNoWBEcckkA8ril4jTZ5Atmt3i4JfJ296M0Y8c3je5b9-HJx037Nr75ffmubq9wKKZbcGFpZxU2vOkC-UZb3VPEOLJWyo1axSooeoe6AgRKSS8PrHiQa2VW9LZGfZZ-Oufu1m3Bj0adxR70PbjLhp56N038r3m31MN9pQXklAVLA-WNAmG9XjItOq1ocR-NxXqOGitWqLiUV_0dLSislVFklFI6oDXOMAfuniYDqQ716p1O9-lCvBqZTvcnz7s9Vnhy_-0zAxyOA6aB3DoOO1qG3uHEB7aI3s_tH_AM6eLdN</recordid><startdate>20140101</startdate><enddate>20140101</enddate><creator>Kowalski, Jennifer R.</creator><creator>Dube, Hitesh</creator><creator>Touroutine, Denis</creator><creator>Rush, Kristen M.</creator><creator>Goodwin, Patricia R.</creator><creator>Carozza, Marc</creator><creator>Didier, Zachary</creator><creator>Francis, Michael M.</creator><creator>Juo, Peter</creator><general>Elsevier Inc</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7X8</scope><scope>7TK</scope><scope>5PM</scope></search><sort><creationdate>20140101</creationdate><title>The Anaphase-Promoting Complex (APC) ubiquitin ligase regulates GABA transmission at the C. elegans neuromuscular junction</title><author>Kowalski, Jennifer R. ; 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Loss-of-function mutants in multiple APC subunits have increased muscle excitation at the NMJ; this phenotype is rescued by expression of the missing subunit in GABA neurons. Quantitative imaging and electrophysiological analyses indicate that APC mutants have decreased GABA release but normal cholinergic transmission. Consistent with this, APC mutants exhibit convulsions in a seizure assay sensitive to reductions in GABA signaling. Previous studies in other systems showed that the APC can negatively regulate the levels of the active zone protein SYD-2 Liprin-α. Similarly, we found that SYD-2 accumulates in APC mutants at GABAergic presynaptic sites. Finally, we found that the APC subunit EMB-27 CDC16 can localize to presynapses in GABA neurons. Together, our data suggest a model in which the APC acts at GABAergic presynapses to promote GABA release and inhibit muscle excitation. 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subjects	Anaphase-Promoting Complex Anaphase-Promoting Complex-Cyclosome - genetics Anaphase-Promoting Complex-Cyclosome - metabolism Animals Caenorhabditis elegans Caenorhabditis elegans - metabolism Caenorhabditis elegans - physiology Caenorhabditis elegans Proteins - metabolism GABA GABAergic Neurons - metabolism GABAergic Neurons - physiology gamma-Aminobutyric Acid - metabolism Intercellular Signaling Peptides and Proteins Motor Neurons - metabolism Motor Neurons - physiology Mutation Neuromuscular Junction - metabolism Neuromuscular Junction - physiology NMJ Phosphoproteins - metabolism Protein Transport Synapse Synaptic Transmission Ubiquitin ligase
title	The Anaphase-Promoting Complex (APC) ubiquitin ligase regulates GABA transmission at the C. elegans neuromuscular junction
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