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

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Query: UMLS:C0013395 (dyspepsia)
4,879 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Only a small number of new drugs have recently become available for gastrointestinal (GI) disorders. This is partly because we await outcomes of research into functional bowel disorder aetiology (e.g., role of microbiota) and of trials to control stress- related or painful GI symptoms (e.g., via CRF(1) receptors or beta(3) adrenoceptors). Nevertheless, only the ClC-2 channel activator lubiprostone has recently reached the clinic, joining the 5-HT(3) antagonist alosetron and the long-established 5-HT(4) agonist and D(2) antagonist metoclopramide; tegaserod, a non-selective ligand, was withdrawn. Interestingly, each has shortcomings, providing opportunities for molecules with 5-HT(4) or motilin receptor selectivity, and for new biology via guanylate cyclase C or ghrelin receptor activation. For translation into new drugs, the molecule must have appropriate efficacy, selectivity and pharmacodynamic properties. It is argued that the compound must then be evaluated in conditions where changes in motility are known to exist, before considering more difficult symptomatic conditions such as irritable bowel syndrome (IBS) or functional dyspepsia (FD), where relationships with disordered motility are unclear. Thus, it may be better to begin studying a gastric prokinetic in diabetics requiring improved glucose control, rather than in FD. Notably, new 5-HT(4) receptor agonists are being evaluated firstly as treatments of constipation, not IBS. New antidiarrhoeal agents should be developed similarly. Thus, progression of new drugs may require initial studies in smaller patient populations where clinical outcome is better defined. Only then can disease-related ideas be properly tested and drugs brought forward for these disorders (with high clinical need) and then, if successful for IBS and FD.
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PMID:Development of drugs for gastrointestinal motor disorders: translating science to clinical need. 1825 67

Motilin and ghrelin are released from the upper gut during fasting, to stimulate gastric motility. Additional actions of ghrelin (e.g. changes in appetite, nausea or endocrine functions) improve the possibility of using ghrelin receptor agonists to treat complex disorders such as functional dyspepsia. However, changes in endocrine functions increase the risk of unacceptable side effects. By comparison, the more restricted prokinetic activity of motilin limits the therapeutic possibilities but improves the risk:benefit ratio. Compounds targeting both receptors are in development. Recently, additional peptides have been identified from preproghrelin (obestatin) and prepromotilin. These exert biological activity but their pathophysiological significance is unknown.
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PMID:Motilin, ghrelin and related neuropeptides as targets for the treatment of GI diseases. 1834 99

Chemotherapy treatment can lead to delayed gastric emptying, early satiety, anorexia, nausea and vomiting, described collectively as the cancer-associated dyspepsia syndrome (CADS). Administration of ghrelin (GHRL), an endogenous orexigenic peptide known to stimulate gastric motility, has been shown to reduce the symptoms of CADS induced in relevant animal models with the potent chemotherapeutic agent, cisplatin. We examined the effects in the rat of cisplatin (6 mg/kg i.p.) treatment on the expression of GHRL and ghrelin receptor (GHSR) mRNAs in the hypothalamus and the stomach at a time-point (2 days) when the effects of cisplatin are pronounced. In addition, plasma levels of GHRL (acylated and total including des-acyl GHRL) were measured and the effect on these levels of treatment with the synthetic glucocorticoid dexamethasone (2 mg/kg s.c. bd.) was investigated. Cisplatin increased GHSR mRNA expression in the stomach (67%) and hypothalamus (52%) but not GHRL mRNA expression and increased the percentage of acylated GHRL (7.03+/-1.35% vs. 11.38+/-2.40%) in the plasma. Dexamethasone reduced the plasma level of acylated GHRL and the percentage of acylated GHRL to values below those in animals treated with saline alone (7.03+/-1.35% vs. 2.60+/-0.49%). Our findings support the hypothesis that an adaptive upregulation of the ghrelin receptor may occur during cancer chemotherapy-associated dyspepsia. This may have a role in defensive responses to toxic challenges to the gut. In addition, our results provide preliminary evidence for glucocorticoid modulation of plasma ghrelin levels.
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PMID:Adaptive upregulation of gastric and hypothalamic ghrelin receptors and increased plasma ghrelin in a model of cancer chemotherapy-induced dyspepsia. 1845 14

Gastrointestinal prokinetics are a heterogeneous class of drugs that stimulate smooth muscle contractions to enhance gastric emptying and intestinal transit. Recently studied prokinetics include antidopaminergic agents (itopride), serotonergic agents (tegaserod and others), and motilin receptor agonists and ghrelin receptor agonists (mitemcinal, TZP101). It has been difficult to establish symptomatic benefit with prokinetic drugs in gastroparesis and functional dyspepsia, because of pathophysiological heterogeneity of the patient populations, a lack of well-accepted endpoints, and inconsistent relationships between changes in motor function and symptomatic outcome. Fundic relaxant drugs are a recent different approach to treatment of gastric motility disorders. Recently studied drugs include drugs under investigation including nitrates, serotonin reuptake blockers, 5-HT(1A) receptor agonists (buspirone and R137696), and muscarinc M1/M2 receptor antagonists (acotiamide or Z-338).
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PMID:Prokinetics and fundic relaxants in upper functional GI disorders. 1894 Feb 66

Motilin is a hormone released by the endocrine cells of the duodenal mucosa during fasting to stimulate gastrointestinal motility. Ghrelin, the closest family member of motilin, was discovered 10 years ago from the rat stomach as the long-awaited endogenous ligand of the growth hormone secretagogue receptor. Ghrelin has now emerged as a multifunctional hormone with important effects on energy homeostasis but also on gastrointestinal motility. Like motilin, it induces hunger contractions in the fasting state and acts postprandially to accelerate gastric emptying. While the development of motilin agonists for the treatment of hypomotility disorders has been going on for more than 15 years, the development of ghrelin agonists is still in its infancy. The failure of the first generation of motilin agonists in clinical trials has been largely due to problems of desensitization and worsening of symptoms due to effects on gastric accommodation. These issues are being taken care of with the second generation of motilin agonists that are currently under evaluation. Ghrelin agonists have the same potential as motilin agonists to treat hypomotility disorders but their effects on appetite may even be a bonus to treat disorders such as functional dyspepsia while ghrelin's anti-inflammatory effects may make it superior to motilin to treat post-operative ileus. Nevertheless the important endocrine activities of ghrelin may result in side effects which are not encountered with motilin. Future studies will need to point out whether the motilin-ghrelin receptor family will make it as a new class of gastroprokinetics.
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PMID:Motilin and ghrelin as prokinetic drug targets. 1942 31

Ghrelin is a peptide hormone produced mainly by the stomach and has widespread physiological functions including increase in appetite. The stimulation of the ghrelin system represents a potential therapeutic approach in various disorders characterized by deficient ghrelin signaling or by low appetite. This stimulation may be achieved via pharmacological targeting of the ghrelin receptor with synthetic ghrelin or ghrelin mimetics or via increased endogenous ghrelin production. Recently, it was demonstrated that gastric electrical stimulation (GES) with Enterra parameters results in increased ghrelin production in rats. Furthermore, recent data revealed putative role of ghrelin-reactive immunoglobulins in the modulation of the ghrelin signaling which can be also stimulated by GES. Here, we review the links between GES and ghrelin in existing GES experimental and clinical applications for treatment of gastroparesis, functional dyspepsia or obesity and discuss if GES can be proposed as a non-pharmacological approach to improve ghrelin secretion in several pathological conditions characterized by low appetite, such as anorexia nervosa or anorexia-cachexia syndrome.
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PMID:Ghrelin, appetite and gastric electrical stimulation. 2167 67

Ghrelin as a human natural hormone is involved in fundamental regulatory processes of eating and energy balance. Ghrelin signals the nutrient availability from the gastrointestinal tract to the central nervous system, up-regulates food intake and lowers energy expenditure mainly through hypothalamic mediators acting both centrally and peripherally including the gastrointestinal tract (motility, epithelium), promotes both neuro-endocrine and inflammatory signals to increase skeletal muscle growth and decrease protein breakdown, and increases lipolysis while body fat utilization is reduced. Ghrelin does more to exert its probably sentinel role around "human energy": it influences through mainly extra-hypothalamic actions the hedonic and incentive value of food, mood and anxiety, sleep-wake regulation, learning and memory, and neurogenesis. Recently numerous ghrelin gene-derived peptides were discovered, demonstrating the complexity within the ghrelin/ghrelin receptor axis. For clinical applications, not only the natural ghrelin and its slice variants, but also several modified or artificial molecules acting at ghrelin-associated receptors were and are developed. Current clinical applications are limited to clinical studies, focusing mainly on cachexia in chronic heart failure, COPD, cancer, endstage- renal-disease or cystic fibrosis, but also on frailty in elderly, gastrointestinal motility (e.g., gastroparesis, functional dyspepsia, postoperative ileus), after curative gastrectomy, anorexia nervosa, growth hormone deficient patients, alcohol craving, sleep-wake regulation (e.g. major depression), or sympathetic nervous activity in obesity. The results of completed, preliminary studies support the clinical potential of ghrelin, ghrelin gene-derived peptides, and artificial analogues, suggesting that larger clinical trials are demanded to move ghrelin towards an available and reimbursed pharmaceutical intervention.
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PMID:Clinical application of ghrelin. 2263 60

Because the clinical condition of gastrointestinal dysfunction, including functional dyspepsia, involves tangled combinations of pathologies, there are some cases of insufficient curative efficacy. Thus, traditional herbal medicines (Kampo medicines) uniquely developed in Japan are thought to contribute to medical treatment for upper gastrointestinal symptoms. Rikkunshito is a Kampo medicine often used to treat dyspeptic symptoms. Over the past few years, several studies have investigated the efficacy of rikkunshito for dysmotility, for example, upper abdominal complaints, in animals and humans. Rikkunshito ameliorated the decrease in gastric motility and anorexia in cisplatin-treated rats, stress-loaded mice, and selective serotonin reuptake inhibitor-treated rats by enhancing plasma ghrelin levels via serotonin2B/2C receptor antagonism. In addition, rikkunshito ameliorated the decrease in food intake in aged mice and stress-loaded decreased gastric motility via enhanced ghrelin receptor signaling. Several clinical studies revealed that rikkunshito was effective in ameliorating upper gastrointestinal symptoms, including dyspepsia, epigastric pain, and postprandial fullness. In this review, we discuss these studies and propose additional evidence-based research that may promote the clinical use of Kampo medicines, particularly rikkunshito, for treating anorexia and gastrointestinal dysfunction.
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PMID:A New Strategy Using Rikkunshito to Treat Anorexia and Gastrointestinal Dysfunction. 2606 62

Gastroparesis and functional dyspepsia are 2 of the most common gastric neuromuscular disorders. These disorders are usually confused, having both similarities and differences. The pathophysiology of these disorders involves abnormal gastric motility, visceral hypersensitivity, mucosal inflammation, and various cellular changes. Both disorders have similar symptoms such as epigastric pain or discomfort, early satiety, and bloating. If patients suspected of having either gastroparesis or functional dyspepsia present with upper gastrointestinal symptoms, they should undergo upper endoscopy to exclude an alternative organic cause. Although the gastric emptying rate is frequently assessed during the clinical workup of patients with gastroparesis or functional dyspepsia, the correlation between gastric emptying and the symptoms is generally poor. Once the diagnosis of gastroparesis or functional dyspepsia is made, treatment should focus on the predominant symptom. Recently, various treatment modalities have been developed and validated. Prokinetic agents are generally used as treatment for both gastroparesis and functional dyspepsia. Acid-suppressive therapy, Helicobacter pylori eradication, and use of drugs that enhance gastric accommodation are employed for functional dyspepsia. Psychoactive drugs are also effective in symptom control. For gastroparesis, antiemetic agents, ghrelin receptor agonists, and serotonergic agents are used aside from prokinetic agents. Acupuncture and gastric electrical stimulation can be attempted. In severe cases, endoscopic and surgical interventions are considered for symptom control.
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PMID:Gastroparesis and Functional Dyspepsia: A Blurring Distinction of Pathophysiology and Treatment. 3050 17

This review covers the epidemiology, pathophysiology, clinical features, diagnosis, and management of diabetic gastroparesis, and more broadly diabetic gastroenteropathy, which encompasses all the gastrointestinal manifestations of diabetes mellitus. Up to 50% of patients with type 1 and type 2 DM and suboptimal glycemic control have delayed gastric emptying (GE), which can be documented with scintigraphy, 13C breath tests, or a wireless motility capsule; the remainder have normal or rapid GE. Many patients with delayed GE are asymptomatic; others have dyspepsia (i.e., mild to moderate indigestion, with or without a mild delay in GE) or gastroparesis, which is a syndrome characterized by moderate to severe upper gastrointestinal symptoms and delayed GE that suggest, but are not accompanied by, gastric outlet obstruction. Gastroparesis can markedly impair quality of life, and up to 50% of patients have significant anxiety and/or depression. Often the distinction between dyspepsia and gastroparesis is based on clinical judgement rather than established criteria. Hyperglycemia, autonomic neuropathy, and enteric neuromuscular inflammation and injury are implicated in the pathogenesis of delayed GE. Alternatively, there are limited data to suggest that delayed GE may affect glycemic control. The management of diabetic gastroparesis is guided by the severity of symptoms, the magnitude of delayed GE, and the nutritional status. Initial options include dietary modifications, supplemental oral nutrition, and antiemetic and prokinetic medications. Patients with more severe symptoms may require a venting gastrostomy or jejunostomy and/or gastric electrical stimulation. Promising newer therapeutic approaches include ghrelin receptor agonists and selective 5-hydroxytryptamine receptor agonists.
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PMID:Diabetic Gastroparesis. 3108 77


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