Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0017168 (gastroesophageal reflux disease)
 11,783 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Considerable evidence now demonstrates that saliva and its components have multiple functions in the GI tract. Saliva aids in bolus formation; it lubricates, protects and cleanses the pharyngeal and esophageal mucosa. Salivary bicarbonate buffers esophageal acid in common reflux. Normal salivary flow decreases the duration of acid contact with esophageal mucosa, an important factor in the development of GERD. If salivary flow is depressed or if the esophagosalivary reflex is lost, a patient may be predisposed to develop GERD. Salivary EGF stimulates GI mucosal proliferation via a direct lumenal effect in the esophagus and stomach. The salivary enzymes LL and salivary amylase initiate fat and starch digestion. They are particularly significant in patients with pancreatic insufficiency such as neonates and patients with cystic fibrosis.
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PMID:Interactions of the salivary and gastrointestinal systems. I. The role of saliva in digestion. 171 62

Cisapride is a novel prokinetic agent that releases acetylcholine at the level of the myenteric plexus. Acetylcholine also plays a role in the secretory function of salivary glands evoked by intraesophagal mechanical and chemical stimulation, mediated through the esophagosalivary reflex. The impact, however, of cisapride on salivary protective components mediated by esophagosalivary reflex remains unknown. Therefore, we have studied salivary pH, bicarbonate, nonbicarbonate, glycoconjugate, protein, EGF, TGF-alpha, and PGE2 before and after the administration of cisapride. The study was conducted in 20 asymptomatic volunteers (9 women and 11 men, mean age 36, range 26-52). Salivary secretions were collected under basal conditions and during masticatory, mechanical, and chemical stimulation before and after four days of cisapride administration (10 or 20 mg four times a day). Cisapride administration resulted in a 45% increase in salivary volume during the basal condition (P < 0.01), a 32% increase during mastication (P < 0.05), a 53% increase during mechanical (P < 0.05), and a 51% increase during chemical (P < 0.01) stimulation. Cisapride administration resulted also in a significant increase in salivary protein output (P < 0.05), salivary bicarbonate (P < 0.05), and nonbicarbonate buffers (P < 0.05), and salivary EGF (P < 0.05). Salivary glycoconjugate significantly increased only during mechanical stimulation with the catheter and at the end of the esophageal perfusion procedure (P < 0.05). Although a similar trend was also recorded during the analysis of salivary PGE2, this difference did not reach statistical significance. Salivary pH and TGF-alpha before and after cisapride administration remained unchanged. The stimulatory impact of cisapride on salivary volume and inorganic (bicarbonate and nonbicarbonate buffers) and organic (protein, glycoconjugate, and EGF) protective components would benefit patients with GERD and would also be potential therapy for xerostomia.
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PMID:Esophagoprotective potential of cisapride. An additional benefit for gastroesophageal reflux disease. 924 29

Oesophageal mucosa has well established protective mechanisms, which operate within pre-epithelial, epithelial and post-epithelial compartments. Since refluxed acid and pepsin always act from the luminal side of the mucosa, protective factors like EGF, operating as a part of pre-epithelial defence, are thought to be pivotal in the maintenance of the integrity of the oesophageal mucosa. The significant contribution of salivary EGF to the quality of the oesophageal mucosal barrier has been demonstrated in an experimental setting and in a clinical scenario. Patients with low salivary EGF levels are predisposed to severe oesophageal damage if they develop gastro-oesophageal reflux and are a high-risk group for development of Barrett's oesophagus. Not only the salivary glands but also the human oesophagus has a profound ability to elaborate and release EGF. Some changes in luminal release of EGF during oesophageal mucosal exposure to intraluminal damaging factors imply its role in the oesophageal protective mechanisms. To exert biological effects within the oesophageal mucosal compartment, EGF requires binding to the ligand-binding domain of its receptor. This process results in receptor dimerisation, autophosphorylation and activation of intracellular signal transduction pathways. EGF receptors are localised on the basolateral and luminal aspect of the mucosal cells playing an important role in fast regeneration of oesophageal epithelium through the high mitotic activity of its proliferative zone. An increase in the rate of salivary EGF secretion during masticatory stimulation suggests its potential therapeutic benefit in the treatment of patients with damaged oesophageal mucosa.
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PMID:Role of epidermal growth factor (EGF) in oesophageal mucosal integrity. 978 80