The receptor protein tyrosine phosphatase CLR-1 is required for synaptic partner recognition

During neural circuit formation, most axons are guided to complex environments, coming into contact with multiple potential synaptic partners. However, it is critical that they recognize specific neurons with which to form synapses. Here, we utilize the split GFP-based marker Neuroligin-1 GFP Recons...

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Autores principales: Varshney, Aruna, Benedetti, Kelli, Watters, Katherine, Shankar, Raakhee, Tatarakis, David, Coto Villa, Doris, Magallanes, Khristina, Agenor, Venia, Wung, William, Farah, Fatima, Ali, Nebat, Le, Nghi, Pyle, Jacqueline, Farooqi, Amber, Kieu, Zanett, Bremer, Martina, VanHoven, Miri
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2018
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5942785/
https://www.ncbi.nlm.nih.gov/pubmed/29742100
http://dx.doi.org/10.1371/journal.pgen.1007312
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author Varshney, Aruna
Benedetti, Kelli
Watters, Katherine
Shankar, Raakhee
Tatarakis, David
Coto Villa, Doris
Magallanes, Khristina
Agenor, Venia
Wung, William
Farah, Fatima
Ali, Nebat
Le, Nghi
Pyle, Jacqueline
Farooqi, Amber
Kieu, Zanett
Bremer, Martina
VanHoven, Miri
author_facet Varshney, Aruna
Benedetti, Kelli
Watters, Katherine
Shankar, Raakhee
Tatarakis, David
Coto Villa, Doris
Magallanes, Khristina
Agenor, Venia
Wung, William
Farah, Fatima
Ali, Nebat
Le, Nghi
Pyle, Jacqueline
Farooqi, Amber
Kieu, Zanett
Bremer, Martina
VanHoven, Miri
author_sort Varshney, Aruna
collection PubMed
description During neural circuit formation, most axons are guided to complex environments, coming into contact with multiple potential synaptic partners. However, it is critical that they recognize specific neurons with which to form synapses. Here, we utilize the split GFP-based marker Neuroligin-1 GFP Reconstitution Across Synaptic Partners (NLG-1 GRASP) to visualize specific synapses in live animals, and a circuit-specific behavioral assay to probe circuit function. We demonstrate that the receptor protein tyrosine phosphatase (RPTP) clr-1 is necessary for synaptic partner recognition (SPR) between the PHB sensory neurons and the AVA interneurons in C. elegans. Mutations in clr-1/RPTP result in reduced NLG-1 GRASP fluorescence and impaired behavioral output of the PHB circuit. Temperature-shift experiments demonstrate that clr-1/RPTP acts early in development, consistent with a role in SPR. Expression and cell-specific rescue experiments indicate that clr-1/RPTP functions in postsynaptic AVA neurons, and overexpression of clr-1/RPTP in AVA neurons is sufficient to direct additional PHB-AVA synaptogenesis. Genetic analysis reveals that clr-1/RPTP acts in the same pathway as the unc-6/Netrin ligand and the unc-40/DCC receptor, which act in AVA and PHB neurons, respectively. This study defines a new mechanism by which SPR is governed, and demonstrates that these three conserved families of molecules, with roles in neurological disorders and cancer, can act together to regulate communication between cells.
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spelling pubmed-59427852018-05-18 The receptor protein tyrosine phosphatase CLR-1 is required for synaptic partner recognition Varshney, Aruna Benedetti, Kelli Watters, Katherine Shankar, Raakhee Tatarakis, David Coto Villa, Doris Magallanes, Khristina Agenor, Venia Wung, William Farah, Fatima Ali, Nebat Le, Nghi Pyle, Jacqueline Farooqi, Amber Kieu, Zanett Bremer, Martina VanHoven, Miri PLoS Genet Research Article During neural circuit formation, most axons are guided to complex environments, coming into contact with multiple potential synaptic partners. However, it is critical that they recognize specific neurons with which to form synapses. Here, we utilize the split GFP-based marker Neuroligin-1 GFP Reconstitution Across Synaptic Partners (NLG-1 GRASP) to visualize specific synapses in live animals, and a circuit-specific behavioral assay to probe circuit function. We demonstrate that the receptor protein tyrosine phosphatase (RPTP) clr-1 is necessary for synaptic partner recognition (SPR) between the PHB sensory neurons and the AVA interneurons in C. elegans. Mutations in clr-1/RPTP result in reduced NLG-1 GRASP fluorescence and impaired behavioral output of the PHB circuit. Temperature-shift experiments demonstrate that clr-1/RPTP acts early in development, consistent with a role in SPR. Expression and cell-specific rescue experiments indicate that clr-1/RPTP functions in postsynaptic AVA neurons, and overexpression of clr-1/RPTP in AVA neurons is sufficient to direct additional PHB-AVA synaptogenesis. Genetic analysis reveals that clr-1/RPTP acts in the same pathway as the unc-6/Netrin ligand and the unc-40/DCC receptor, which act in AVA and PHB neurons, respectively. This study defines a new mechanism by which SPR is governed, and demonstrates that these three conserved families of molecules, with roles in neurological disorders and cancer, can act together to regulate communication between cells. Public Library of Science 2018-05-09 /pmc/articles/PMC5942785/ /pubmed/29742100 http://dx.doi.org/10.1371/journal.pgen.1007312 Text en © 2018 Varshney et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Varshney, Aruna
Benedetti, Kelli
Watters, Katherine
Shankar, Raakhee
Tatarakis, David
Coto Villa, Doris
Magallanes, Khristina
Agenor, Venia
Wung, William
Farah, Fatima
Ali, Nebat
Le, Nghi
Pyle, Jacqueline
Farooqi, Amber
Kieu, Zanett
Bremer, Martina
VanHoven, Miri
The receptor protein tyrosine phosphatase CLR-1 is required for synaptic partner recognition
title The receptor protein tyrosine phosphatase CLR-1 is required for synaptic partner recognition
title_full The receptor protein tyrosine phosphatase CLR-1 is required for synaptic partner recognition
title_fullStr The receptor protein tyrosine phosphatase CLR-1 is required for synaptic partner recognition
title_full_unstemmed The receptor protein tyrosine phosphatase CLR-1 is required for synaptic partner recognition
title_short The receptor protein tyrosine phosphatase CLR-1 is required for synaptic partner recognition
title_sort receptor protein tyrosine phosphatase clr-1 is required for synaptic partner recognition
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5942785/
https://www.ncbi.nlm.nih.gov/pubmed/29742100
http://dx.doi.org/10.1371/journal.pgen.1007312
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