Deletion of ENTPD3 does not impair nucleotide hydrolysis in primary somatosensory neurons or spinal cord [v1; ref status: indexed, http://f1000r.es/3rm]

Deletion of ENTPD3 does not impair nucleotide hydrolysis in primary somatosensory neurons or spinal cord [v1; ref status: indexed, http://f1000r.es/3rm]

Ectonucleotidases are membrane-bound or secreted proteins that hydrolyze extracellular nucleotides.  Recently, we identified three ectonucleotidases that hydrolyze extracellular adenosine 5’-monophosphate (AMP) to adenosine in primary somatosensory neurons.  Currently, it is unclear which ectonucleo...

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Main Authors: Eric McCoy, Sarah Street, Bonnie Taylor-Blake, Jason Yi, Martin Edwards, Mark Wightman, Mark Zylka
Format: Article
Language:English
Published: F1000 Research Ltd 2014-07-01
Series:F1000Research
Subjects:
Animal Genetics
Neuronal Signaling Mechanisms
Sensory Systems
Online Access:http://f1000research.com/articles/3-163/v1
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spelling doaj-10348346a77c4b918841e9ba8b11e37a2020-11-25T03:23:29ZengF1000 Research LtdF1000Research2046-14022014-07-01310.12688/f1000research.4563.14882Deletion of ENTPD3 does not impair nucleotide hydrolysis in primary somatosensory neurons or spinal cord [v1; ref status: indexed, http://f1000r.es/3rm]Eric McCoy0Sarah Street1Bonnie Taylor-Blake2Jason Yi3Martin Edwards4Mark Wightman5Mark Zylka6Department of Cell Biology and Physiology, UNC Neuroscience Center, University of North Carolina, CB #7545, Chapel Hill, NC, 27599, USADepartment of Cell Biology and Physiology, UNC Neuroscience Center, University of North Carolina, CB #7545, Chapel Hill, NC, 27599, USADepartment of Cell Biology and Physiology, UNC Neuroscience Center, University of North Carolina, CB #7545, Chapel Hill, NC, 27599, USADepartment of Cell Biology and Physiology, UNC Neuroscience Center, University of North Carolina, CB #7545, Chapel Hill, NC, 27599, USADepartment of Chemistry, UNC Neuroscience Center, University of North Carolina, CB #3290, Chapel Hill, NC, 27599, USADepartment of Chemistry, UNC Neuroscience Center, University of North Carolina, CB #3290, Chapel Hill, NC, 27599, USADepartment of Cell Biology and Physiology, UNC Neuroscience Center, University of North Carolina, CB #7545, Chapel Hill, NC, 27599, USAEctonucleotidases are membrane-bound or secreted proteins that hydrolyze extracellular nucleotides.  Recently, we identified three ectonucleotidases that hydrolyze extracellular adenosine 5’-monophosphate (AMP) to adenosine in primary somatosensory neurons.  Currently, it is unclear which ectonucleotidases hydrolyze ATP and ADP in these neurons.  Ectonucleoside triphosphate diphosphohydrolases (ENTPDs) comprise a class of enzymes that dephosphorylate extracellular ATP and ADP.  Here, we found that ENTPD3 (also known as NTPDase3 or CD39L3) was located in nociceptive and non-nociceptive neurons of the dorsal root ganglion (DRG), in the dorsal horn of the spinal cord, and in free nerve endings in the skin.  To determine if ENTPD3 contributes directly to ATP and ADP hydrolysis in these tissues, we generated and characterized an Entpd3 knockout mouse.  This mouse lacks ENTPD3 protein in all tissues examined, including the DRG, spinal cord, skin, and bladder.  However, DRG and spinal cord tissues from Entpd3-/- mice showed no reduction in histochemical staining when ATP, ADP, AMP, or UTP were used as substrates.  Additionally, using fast-scan cyclic voltammetry (FSCV), adenosine production was not impaired in the dorsal spinal cord of Entpd3-/- mice when the substrate ADP was applied.  Further, Entpd3-/- mice did not differ in nociceptive behaviors when compared to wild-type mice, although Entpd3-/- mice showed a modest reduction in β-alanine-mediated itch.  Taken together, our data indicate that deletion of Entpd3 does not impair ATP or ADP hydrolysis in primary somatosensory neurons or in dorsal spinal cord.  Moreover, our data suggest there could be multiple ectonucleotidases that act redundantly to hydrolyze nucleotides in these regions of the nervous system.http://f1000research.com/articles/3-163/v1Animal GeneticsNeuronal Signaling MechanismsSensory Systems
collection DOAJ
language English
format Article
sources DOAJ
author Eric McCoy
Sarah Street
Bonnie Taylor-Blake
Jason Yi
Martin Edwards
Mark Wightman
Mark Zylka
spellingShingle Eric McCoy
Sarah Street
Bonnie Taylor-Blake
Jason Yi
Martin Edwards
Mark Wightman
Mark Zylka
Deletion of ENTPD3 does not impair nucleotide hydrolysis in primary somatosensory neurons or spinal cord [v1; ref status: indexed, http://f1000r.es/3rm]
F1000Research
Animal Genetics
Neuronal Signaling Mechanisms
Sensory Systems
author_facet Eric McCoy
Sarah Street
Bonnie Taylor-Blake
Jason Yi
Martin Edwards
Mark Wightman
Mark Zylka
author_sort Eric McCoy
title Deletion of ENTPD3 does not impair nucleotide hydrolysis in primary somatosensory neurons or spinal cord [v1; ref status: indexed, http://f1000r.es/3rm]
title_short Deletion of ENTPD3 does not impair nucleotide hydrolysis in primary somatosensory neurons or spinal cord [v1; ref status: indexed, http://f1000r.es/3rm]
title_full Deletion of ENTPD3 does not impair nucleotide hydrolysis in primary somatosensory neurons or spinal cord [v1; ref status: indexed, http://f1000r.es/3rm]
title_fullStr Deletion of ENTPD3 does not impair nucleotide hydrolysis in primary somatosensory neurons or spinal cord [v1; ref status: indexed, http://f1000r.es/3rm]
title_full_unstemmed Deletion of ENTPD3 does not impair nucleotide hydrolysis in primary somatosensory neurons or spinal cord [v1; ref status: indexed, http://f1000r.es/3rm]
title_sort deletion of entpd3 does not impair nucleotide hydrolysis in primary somatosensory neurons or spinal cord [v1; ref status: indexed, http://f1000r.es/3rm]
publisher F1000 Research Ltd
series F1000Research
issn 2046-1402
publishDate 2014-07-01
description Ectonucleotidases are membrane-bound or secreted proteins that hydrolyze extracellular nucleotides.  Recently, we identified three ectonucleotidases that hydrolyze extracellular adenosine 5’-monophosphate (AMP) to adenosine in primary somatosensory neurons.  Currently, it is unclear which ectonucleotidases hydrolyze ATP and ADP in these neurons.  Ectonucleoside triphosphate diphosphohydrolases (ENTPDs) comprise a class of enzymes that dephosphorylate extracellular ATP and ADP.  Here, we found that ENTPD3 (also known as NTPDase3 or CD39L3) was located in nociceptive and non-nociceptive neurons of the dorsal root ganglion (DRG), in the dorsal horn of the spinal cord, and in free nerve endings in the skin.  To determine if ENTPD3 contributes directly to ATP and ADP hydrolysis in these tissues, we generated and characterized an Entpd3 knockout mouse.  This mouse lacks ENTPD3 protein in all tissues examined, including the DRG, spinal cord, skin, and bladder.  However, DRG and spinal cord tissues from Entpd3-/- mice showed no reduction in histochemical staining when ATP, ADP, AMP, or UTP were used as substrates.  Additionally, using fast-scan cyclic voltammetry (FSCV), adenosine production was not impaired in the dorsal spinal cord of Entpd3-/- mice when the substrate ADP was applied.  Further, Entpd3-/- mice did not differ in nociceptive behaviors when compared to wild-type mice, although Entpd3-/- mice showed a modest reduction in β-alanine-mediated itch.  Taken together, our data indicate that deletion of Entpd3 does not impair ATP or ADP hydrolysis in primary somatosensory neurons or in dorsal spinal cord.  Moreover, our data suggest there could be multiple ectonucleotidases that act redundantly to hydrolyze nucleotides in these regions of the nervous system.
topic Animal Genetics
Neuronal Signaling Mechanisms
Sensory Systems
url http://f1000research.com/articles/3-163/v1
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