Roles of Cav3.2 and TRPA1 channels targeted by hydrogen sulfide in pancreatic nociceptive processing in mice with or without acute pancreatitis-Reference-Cited by-同舟云学术

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Roles of Cav3.2 and TRPA1 channels targeted by hydrogen sulfide in pancreatic nociceptive processing in mice with or without acute pancreatitis

Published:2014-09-30 Issue:2 Volume:93 Page:361-369
ISSN:0360-4012
Container-title:Journal of Neuroscience Research
language:en
Short-container-title:Journal of Neuroscience Research

Author:

Terada Yuka¹,Fujimura Mayuko¹,Nishimura Sachiyo¹,Tsubota Maho¹,Sekiguchi Fumiko¹,Kawabata Atsufumi¹

Affiliation:

1. Division of Pharmacology and Pathophysiology; Kinki University School of Pharmacy; Higashi-Osaka Japan

Publisher

Wiley

Subject

Cellular and Molecular Neuroscience

Reference33 articles.

1. TRPA1 is functionally expressed primarily by IB4-binding, nonpeptidergic mouse and rat sensory neurons;Barabas;PLoS One,2012

2. Role of hydrogen sulfide in acute pancreatitis and associated lung injury;Bhatia;FASEB J,2005

3. Phosphorylation of ERK in the spinal dorsal horn following pancreatic pronociceptive stimuli with proteinase-activated receptor-2 agonists and hydrogen sulfide in rats: evidence for involvement of distinct mechanisms;Fukushima;J Neurosci Res,2010

4. NNC 55-0396 [(1S,2S)-2-(2-(N-[(3-benzimidazol-2-yl)propyl]-N-methylamino)ethyl)-6-fluoro-1,2, 3,4-tetrahydro-1-isopropyl-2-naphtyl cyclopropanecarboxylate dihydrochloride]: a new selective inhibitor of T-type calcium channels;Huang;J Pharmacol Exp Ther,2004

5. Hydrogen sulfide as a novel nociceptive messenger;Kawabata;Pain,2007

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1. Functional Upregulation of TRPM3 Channels Contributes to Acute Pancreatitis-associated Pain and Inflammation;Inflammation;2024-09-11

2. Sulfide and polysulfide as pronociceptive mediators: Focus on Cav3.2 function enhancement and TRPA1 activation;Journal of Pharmacological Sciences;2024-07

3. Involvement of interaction of Cav3.2 and nociceptive TRPA1 in pathological pain transmission;Biomedical Research;2024-02-02

4. Molecular mechanisms of pain in acute pancreatitis: recent basic research advances and therapeutic implications;Frontiers in Molecular Neuroscience;2023-12-22

5. A hydrolysate of poly-trans-[(2-carboxyethyl)germasesquioxane] (Ge-132) suppresses Cav3.2-dependent pain by sequestering exogenous and endogenous sulfide;Redox Biology;2023-02

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