Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0030305 (
pancreatitis
)
16,014
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
proteinase-activated receptor 2
is expressed on a subset of primary afferent neurons and may participate in the neurogenic component of inflammation. We hypothesized that this receptor may also play a role in neuronal sensitization and contribute to the pathogenesis of pain in inflammatory conditions such as
pancreatitis
. Using a specific
proteinase-activated receptor 2
activating peptide, we found evidence of such sensitization in vitro in the form of enhanced capsaicin- and KCl-evoked release of calcitonin gene-related peptide, a marker for nociceptive signaling. We then demonstrated that injection of the
proteinase-activated receptor 2
activating peptide into the pancreatic duct can activate and sensitize pancreas-specific afferent neurons in vivo, as measured by Fos expression in the dorsal horn of the spinal cord. These observations suggest that
proteinase-activated receptor 2
contributes to nociceptive signaling and may provide a novel link between inflammation and pain.
...
PMID:The proteinase-activated receptor 2 is involved in nociception. 1169 14
Pancreatitis
is a common disease with substantial morbidity and mortality. Pharmacological therapy for the prevention and treatment of
pancreatitis
is an intense subject of investigation. The use of proteinase inhibitors such as gabexate mesylate in the prevention of post-endoscopic retrograde cholangiopancreatography
pancreatitis
(ERCP) has been disappointing. Initial studies using ulinastatin are promising but additional dose-response studies are needed. Somatostatin, but not octreotide, is likely to be effective in the prevention of post-ERCP
pancreatitis
. Rectal diclofenac might provide a simple, cheap alternative but large-scale studies are again needed. New insights into the role of
proteinase-activated receptor-2
in the pancreas add to the complexity of the mechanisms involved in the pathophysiology of
pancreatitis
, and the development of specific agonists and antagonists of this receptor is necessary to assess their therapeutic potential in the prevention and management of
pancreatitis
.
...
PMID:Pharmacological management of pancreatitis. 1619 32
Camostat mesilate, an orally available proteinase inhibitor, is clinically used for treatment of
pancreatitis
. Given recent evidence that pancreatic proteinases including trypsin and/or
proteinase-activated receptor-2
(
PAR2
) might be involved in pancreatic pain, we examined if camostat mesilate could suppress spinal Fos expression, a marker for neuronal activation, following specific application of trypsin to the pancreas, and
pancreatitis
-related referred allodynia. Trypsin, administered into the pancreatic duct, caused delayed expression of Fos proteins in the superficial layer of the bilateral T8 and T9 spinal dorsal horns in rats. The trypsin-induced spinal Fos expression was completely abolished by oral pre-administration of camostat mesilate at 300 mg/kg. After hourly repeated (6 times in total) administration of caerulein, mice showed typical symptoms of
pancreatitis
, accompanied by mechanical allodynia in the upper abdomen (i.e., referred hyperalgesia/allodynia), as assessed by use of von Frey filaments. Camostat mesilate at 100-300 mg/kg, given orally twice before the 1st and 4th doses of caerulein, abolished the
pancreatitis
-related abdominal allodynia, while it partially prevented the inflammatory signs. The same doses of camostat mesilate, when administered once after the final dose of caerulein, also revealed significant anti-allodynic effect. These data suggest that camostat mesilate prevents and/or depresses
pancreatitis
-induced pain and/or referred hyperalgesia/allodynia, in which proteinases including trypsin would play a critical role.
...
PMID:The proteinase inhibitor camostat mesilate suppresses pancreatic pain in rodents. 1743 71
Pancreatic acinar cells express
proteinase-activated receptor-2
(
PAR2
) that is activated by trypsin-like serine proteases and has been shown to exert model-specific effects on the severity of experimental
pancreatitis
, i.e.,
PAR2
(-/-) mice are protected from experimental acute biliary
pancreatitis
but develop more severe secretagogue-induced
pancreatitis
. P2pal-18S is a novel pepducin lipopeptide that targets and inhibits
PAR2
. In studies monitoring
PAR2
-stimulated intracellular Ca(2+) concentration changes, we show that P2pal-18S is a full
PAR2
inhibitor in acinar cells. Our in vivo studies show that P2pal-18S significantly reduces the severity of experimental biliary
pancreatitis
induced by retrograde intraductal bile acid infusion, which mimics injury induced by endoscopic retrograde cholangiopancreatography (ERCP). This reduction in
pancreatitis
severity is observed when the pepducin is given before or 2 h after bile acid infusion but not when it is given 5 h after bile acid infusion. Conversely, P2pal-18S increases the severity of secretagogue-induced
pancreatitis
. In vitro studies indicate that P2pal-18S protects acinar cells against bile acid-induced injury/death, but it does not alter bile acid-induced intracellular zymogen activation. These studies are the first to report the effects of an effective
PAR2
pharmacological inhibitor on pancreatic acinar cells and on the severity of experimental
pancreatitis
. They raise the possibility that a pepducin such as P2pal-18S might prove useful in the clinical management of patients at risk for developing severe biliary
pancreatitis
such as occurs following ERCP.
...
PMID:Pharmacological inhibition of PAR2 with the pepducin P2pal-18S protects mice against acute experimental biliary pancreatitis. 2327 17
We examined if TRPA1, like TRPV1, contributes to pancreatic nociceptor excitation following
proteinase-activated receptor-2
(
PAR2
) stimulation and to
pancreatitis
-related pain in mice. A
PAR2
-activating peptide, infused into the pancreatic duct, caused spinal Fos expression, which was prevented by AP18, a TRPA1 inhibitor. Repeated administration of cerulein caused referred hyperalgesia accompanying
pancreatitis
, which was reversed by SB366791, a TRPV1 inhibitor, but not AP18. AP18, administered in combination with a subeffective dose of SB366791, significantly suppressed the referred hyperalgesia. Our findings suggest that TRPA1, like TRPV1, mediates
PAR2
-triggered pancreatic nociception and that TRPA1 in collaboration with TRPV1 latently contributes to
pancreatitis
-related pain.
...
PMID:Contribution of TRPA1 as a downstream signal of proteinase-activated receptor-2 to pancreatic pain. 2416 21
