Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0030305 (pancreatitis)
 16,014 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Stimulation of capsaicin sensitive nerves or administration of calcitonin gene-related peptide (CGRP) before induction of acute pancreatitis (AP) attenuates pancreatic damage, whereas CGRP administration after development of AP aggravates lesion of pancreatic tissue. The aim of this study was to determine the effect of prolonged activity of sensory nerves or CGRP administration on the pancreatic repair after repeated episodes of AP. Five episodes of acute caerulein-induced pancreatitis (10 microg/kg/h for 5 h s.c.) were performed at weekly intervals in rats receiving either vehicle or capsaicin at the sensory nerve stimulatory dose (0.5 mg/kg, 3 times daily), or CGRP (10 microg/kg, 3 times daily). Two weeks after the last induction of AP morphological signs of pancreatic damage, pancreatic blood flow (PBF), serum and pancreatic amylase activity, fecal chymotrypsin activity, pancreatic weight, pancreatic RNA and DNA content, as well as, serum interleukin-1beta (Il-1beta ) were assessed. Pancreata of animals receiving vehicle alone showed almost full recovery within two weeks after last episode of pancreatitis induction. In capsaicin-treated group of rats, we observed the increase in PBF by 44% and in serum Il-1beta concentration by 91%. The pancreatic amylase activity, fecal activity of chymotrypsin, pancreatic nucleic acids content and DNA synthesis were decreased. In rats treated with CGRP the alterations in PBF, serum Il-1beta concentration, as well as, in pancreatic and fecal activity of enzymes were similar to capsaicin treated group but less pronounced. We conclude that prolonged activity of capsaicin-sensitive sensory nerves and the presence of their main mediator-CGRP during pancreatic regeneration after AP leads to pancreatic functional insufficiency typical for chronic pancreatitis.
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PMID:The influence of sensory nerves and CGRP on the pancreatic regeneration after repeated episodes of acute pancreatitis in rats. 1101 64

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.
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PMID:The proteinase-activated receptor 2 is involved in nociception. 1169 14

Central nervous system affects pancreatic secretion of enzymes however, the neural modulation of acute pancreatitis has not been investigated. Leptin and melatonin have been recently reported to affect the inflammatory response of various tissues. The identification of specific receptors for both peptides in the pancreas suggests that leptin and melatonin could contribute to the pancreatic protection against inflammation. The aim of this study was: 1/ to compare the effect of intracerebroventricular (i.c.v.) or intraperitoneal (i.p.) administration of leptin or melatonin on the course of caerulein-induced pancreatitis (CIP) in the rat, 2/ to examine the involvement of sensory nerves (SN) and calcitonin gene-related peptide (CGRP) in pancreatic protection afforded by leptin or melatonin, 3/ to assess the effect of tested peptides on lipid peroxidation products (MDA + 4-HNE) in the pancreas of CIP rats, 4/ to investigate the influence of leptin or melatonin on nitric oxide (NO) release from isolated pancreatic acini and 5/ to determine the effects of caerulein and leptin on leptin receptor gene expression in these acini by RT-PCR. CIP was induced by subcutaneous (s.c.) infusion of caerulein (25 microg/kg) to the conscious rats, confirmed by the significant increases of pancreatic weight and plasma amylase and by histological examination. This was accompanied in marked reduction of pancreatic blood flow and significant rise of MDA + 4-HNE in the pancreas. Leptin or melatonin were administered i.p. or i.c.v. 30 min prior to the start of CIP. Deactivation of SN was produced by s.c. capsaicin (100 mg/kg). An antagonist of CGRP, CGRP 8-37 (100 microg/kg i.p.), was given together with leptin or melatonin to the CIP rats. MDA + 4-HNE was measured using LPO commercial kit. NO was determined using the Griess reaction. Pretreatment of CIP rats with i.p. leptin (2 or 10 microg/kg) or melatonin (10 or 50 mg/kg) significantly attenuated the severity of CIP. Similar protective effects were observed following i.c.v. application of leptin (0.4 or 2 microg/rat) but not melatonin (10 or 40 microg/rat) to the CIP rats. Capsaicin deactivation of SN oradministration of CGRP 8-37 abolished above beneficial effects of leptin on CIP, whereas melatonin-induced protection of pancreas was unaffected. Pretreatment with i.p. melatonin (10 or 50 mg/kg), but not leptin, significantly reduced MDA + 4-HNE in the pancreas of CIP rats. Leptin (10(-10) - 10(-6) M) but not melatonin (10(-8) - 10(-5) M) significantly stimulated NO release from isolated pancreatic acini. Leptin receptor gene expression in these acini was significantly increased by caerulein and leptin. We conclude that 1/ central or peripheral pretreatment with leptin protects the pancreas against its damage induced by CIP, whereas melatonin exerts its protective effect only when given i.p., but not following its i.c.v. adminstration, 2/ activation of leptin receptor in the pancreatic acini appears to be involved in the beneficial effects of leptin on acute pancreatitis, 3/ the protective effects of leptin involve sensory nerves, CGRP and increased generation of NO whereas melatonin-induced protection of the pancreas depends mainly on the antioxidant local effect of this indole, and scavenging of the radical oxygen species in the pancreatic tissue.
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PMID:Sensory nerves in central and peripheral control of pancreatic integrity by leptin and melatonin. 1193 19

The purpose of this investigation is to study the state of Ca regulation mechanism at chronic alcohol pancreatitis and to compare with the activity changes of pancreatic lipase and its inhibitor at this disease. Content of Ca and regulating hormones (parathormone and calcitonin), activity of pancreas lipase and inhibitory blood ability in connection with it were determined in 30 patients with chronic alcohol pancreatitis without complications and in 20 persons with complicated disease course. Ca blood content fluctuates within normal level. But the median Ca contents in the group of patients with complications were significantly higher than in the control group. No changes in the level of pathormones and the increased Ca content were observed in the blood of the patients. The direct correlation between Ca and calcitonin and inverse correlation between Ca and parathormone were kept. According to correlation analysis of definite indexes the regulatory mechanisms of Ca metabolism in patients were intact. The increased calcitonin blood content in patients with chronic alcohol pancreatitis has apparently a compensatory character. This fact is confirmed by direct correlation with inhibitory ability of blood with respect to lipase.
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PMID:[Hormonal regulation of calcium metabolism in chronic alcoholic pancreatitis]. 1227 90

Although pain is a cardinal feature of pancreatitis, its pathogenesis is poorly understood and treatment remains difficult. Nociceptive sensitization in several somatic pain models has been associated with activation of protein kinases including trkA, protein kinase C, and protein kinase A. We therefore tested the hypothesis that systemic treatment with a kinase inhibitor, k252a, known to inhibit all of these kinases would alleviate pain in an animal model of pancreatitis. Von Frey filament testing of somatic referral regions was evaluated as a method to measure referred pain in a rat model of acute necrotizing pancreatitis induced by L-arginine. Rats with pancreatitis showed increased sensitivity to abdominal stimulation with Von Frey filament. This referred mechanical sensitivity was associated with an 8-fold increase in levels of phosphorylated trkA in the pancreas and with significant up-regulation of both calcitonin gene-related peptide and preprotachykinin mRNA expression in thoracic dorsal root ganglia and with increased calcitonin gene-related peptide and substance P immunoreactivity in spinal cord segment T10. Treatment with the kinase inhibitor k252a suppressed the phosphorylation of trkA in the pancreas as well as reversed both the behavioral changes and the increase in neuropeptide expression associated with pancreatitis.
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PMID:Acute pancreatitis results in referred mechanical hypersensitivity and neuropeptide up-regulation that can be suppressed by the protein kinase inhibitor k252a. 1462 90

Stimulation of primary sensory neurons produces local vasodilation, plasma extravasation, and pain and is due largely to the release of the tachykinins substance P and calcitonin-gene-related peptide. Pathological activation of sensory neurons and the inflammatory sequelae are known as neurogenic inflammation and appear to be important in many organ systems, including the pancreas. Factors that stimulate primary sensory neurons include hydrogen ions, heat, leukotrienes, arachidonic acid metabolites, bradykinin, and proteases such as trypsin, all of which may participate in the generation of acute pancreatitis. The current review examines the cellular and molecular mechanisms involved in sensory nerve activation within the pancreas and the potential contribution of neurogenic inflammation to the pathogenesis of pancreatitis.
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PMID:Neurogenic inflammation and pancreatitis. 1555 Jul 64

Melatonin was thought to originate primarily from the pineal gland and to be secreted during the night, but recent studies revealed that gastrointestinal (GI) tract presents another, many times larger, source of melatonin that contributes significantly to the circulating concentration of this indole. Melatonin may exert a direct effect on GI tissues but its major influence on GI organs seems to occur indirectly, via the brain-gut axis including peripheral receptors, sensory afferent (vagal or sympathetic) pathways and central nervous system (CNS) acting on these organs via autonomic efferents and neuromediators. This article reviews and updates our experience with the fascinating molecule, as related to GI organs, with special focus on secretory activity of the stomach and pancreas and the maintenance of their tissue integrity. In addition to being released into the circulation, melatonin is also discharged into the gut lumen and this appears to be implicated in the postprandial stimulation of pancreatic enzyme secretion, mediated by melatonin-induced release of cholecystokinin, acting through entero-gastro-pancreatic reflexes. Although exerting certain differences in the mechanism of action on gastric and pancreatic secretory activities, melatonin derived from its precursor L-tryptophan, exhibits similar highly protective actions against the damage of both the stomach and the pancreas and accelerates the healing of chronic gastric ulcerations by stimulating the microcirculation and cooperating with arachidonate metabolites such as prostaglandins, with nitric oxide released from vascular endothelium, and/or sensory nerves and with their neuropeptides such as calcitonin gene related peptide. The beneficial effects of melatonin results in gastro- and pancreato-protection, prevents various forms of gastritis and pancreatitis through the activation of specific MT2-receptors and scavenges reactive oxygen species (ROS). Melatonin counteracts the increase in the ROS-induced lipid peroxidation and preserves, at least in part, the activity of key anti-oxidizing enzymes such as superoxide dismutase. It is proposed that melatonin should be considered as the agent exerting an important role in prevention of gastric and pancreatic damage and in accelerating healing of gastric ulcers.
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PMID:Melatonin as an organoprotector in the stomach and the pancreas. 1568 61

The authors describe a 9-year-old girl with precursor-B acute lymphoblastic leukemia (ALL) who presented with dehydration and severe hypercalcemia. She had received oral vitamin D and calcium supplementation for 4 days, the last dose 48 hours prior to admission, and required pediatric intensive care unit (PICU) hospitalization for management of the hypercalcemia and safe initiation of induction chemotherapy. Her clinical course was complicated by pancreatitis, disseminated intravascular coagulation, pleural effusion, and focal seizures. Although the exact mechanism of hypercalcemia was not elucidated, it was likely related to the underlying ALL, without dismissing the prior vitamin D and calcium supplementation as a possible contributing factor. The hypercalcemia resolved with specific antileukemic therapy along with supportive care and administration of calcitonin. Hypercalcemia is an uncommon metabolic abnormality in children with ALL, but it can be life-threatening. Children with ALL should be referred to tertiary-care institutions with PICU and subspecialty support because serious metabolic and other complications can occur before or after the administration of chemotherapy.
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PMID:Life-threatening hypercalcemia complicated by pancreatitis in a child with acute lymphoblastic leukemia. 1589 68

The approach to the management of painful chronic pancreatitis has been empirical, primarily due to the lack of information about biological mechanisms producing pain. To facilitate research into pain mechanisms, our aim was to assess a rat model of chronic pancreatitis induced by pancreatic infusion of trinitrobenzene sulfonic acid as a model of painful pancreatitis. Nociception was assessed by measuring mechanical sensitivity of the abdomen and by recording the number of nocifensive behaviors in response to electrical stimulation of the pancreas. Expression of neuropeptides calcitonin gene-related peptide (CGRP) and substance P (SP) in the thoracic dorsal root ganglia receiving input from the pancreas and nerve growth factor (NGF) in the pancreas were measured. Rats with pancreatitis exhibited marked increase in sensitivity to mechanical probing of the abdomen and increased sensitivity to noxious electrical stimulation of the pancreas. There were significant increases in NGF protein in the pancreas and in expression of neuropeptides CGRP and SP in the sensory neurons from dorsal root ganglia receiving input from the pancreas. We have established quantitative measures of referred nociception and pancreatic hyperalgesia in a rat model of chronic pancreatitis that bears histological similarities to the human disease. This model has considerable construct, face and predictive validity for the human condition. It is of importance for the study of the pathogenesis of pain in this condition and can facilitate the development of new therapeutic options.
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PMID:Molecular and behavioral changes in nociception in a novel rat model of chronic pancreatitis for the study of pain. 1609 67

Treatment of giant cell lesions of the jaws is currently a subject of acute interest in the maxillofacial community. Based on their presumptive histological and biological similarities to both the "brown tumors" of hyperparathyroidism as well as proliferative vascular lesions, both calcitonin and interferon alpha administration have been attempted in patients suffering from these lesions. We present a case report of one young female in which both of these treatment modalities were instituted. We also discuss a rarely reported complication consisting of drug-induced lupus erythematosis and pancreatitis secondary to interferon alpha use.
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PMID:Complications of alpha-interferon therapy for aggressive central giant cell lesion of the maxilla. 1612 54


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