Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0042963 (vomiting)
 31,883 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recently, a new class of agents, the substance P antagonists, has heralded a novel approach for the control of emesis. Aprepitant (Emend, Merck & Co., Inc.), the first of this class, was recently approved by the FDA for the prevention of both acute and delayed chemotherapy-induced nausea and vomiting (CINV). Of interest is the vast array of processes in which substance P is involved such as pain, anxiety, depression and inflammation and the potential wide applicability of substance P antagonists to a number of medical conditions outside of the nausea and vomiting realm. The following review provides an overview of aprepitant including pharmacokinetics, pharmacology and clinical evidence for its use in CINV. A brief discussion of other possible indications for aprepitant will also be presented.
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PMID:Aprepitant--a novel NK1-receptor antagonist. 1464 Sep 27

The emetic action of the prostanoid TP receptor agonist, 11alpha,9alpha-epoxymethano-15S-hydroxyprosta-5Z,13E-dienoic acid (U46619; 300 microg/kg, i.p.), was investigated in Suncus murinus. The emetic response was reduced by 76% following bilateral abdominal vagotomy (P<0.001) and by reserpine (5 mg/kg, i.p., 24 h pretreatment; P<0.05) but U46619 administered i.c.v. (30-300 ng) was not emetic, suggesting a peripheral mechanism involving monoamines. However, fenfluramine (5 mg/kg, repeated treatment) and para-chlorophenylalanine (100-400 mg/kg) and ondansetron (0.3-3 mg/kg) were inactive (P>0.05) to reduce U46619-induced emesis precluding a role of 5-HT and 5-HT(3) receptors in the mechanism. Similarly, phentolamine (0.3-3 mg/kg), propranolol (3 mg/kg), and their combination, and metoclopramide (0.3-3 mg/kg), domperidone (0.3-3 mg/kg), droperidol (0.3-3 mg/kg), scopolamine (0.3-3 mg/kg) and promethazine (0.3-3 mg/kg) were inactive (P>0.05) to reduce the retching and vomiting response. However, the tachykinin NK(1) receptor antagonist, (+)-2S,3S(-3-(2-methoxy-5-trifluoromethoxybenzyl)amino-2-phenylpiperidine) (CP-122,721; 1-10 mg/kg) antagonized emesis (P<0.01). In conclusion, U46619-induced emesis appears to be mediated via a predominant peripheral mechanism sensitive to reserpine and is not likely to involve adrenoceptors, dopamine, 5-HT(3), muscarinic or histamine (H(1)) receptors. The action of CP-122,721 to reduce U46619-induced emesis extends the spectrum of anti-emetic action tachykinin NK(1) receptor antagonists to mechanisms involving TP receptors.
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PMID:Emetic action of the prostanoid TP receptor agonist, U46619, in Suncus murinus (house musk shrew). 1466 35

Extensive efforts since 1931, on the structural determination of the mammalian tachykinin SP by NMR, CD and IR have turned out to be inconclusive. Studies are now being concentrated on the structural properties and characteristics of various NK receptors (NK(1), NK(2) and NK(3)) with the help of genetics, cloning, receptor engineering, mutagenesis and modeling. This knowledge is now being fruitfully used in the development of non-peptide NK(1) receptor antagonists that essentially block the pharmacological effects of SP. It is now being realized that the simultaneous blockade of two or more receptors gives promising results in emesis, depression and pulmonary obstructive diseases. In addition to the synthetic compounds, the discovery of antagonists from natural origin has added a great value to this field. In this review we have made an attempt to present the structural characteristics of SP, its analogs and antagonists, the structural characteristics of the NK receptor, and structure activity relationships that have helped to improve the therapeutic utilities of SP antagonists.
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PMID:Substance P: structure, function, and therapeutics. 1475 78

The tachykinin family of peptides are distributed throughout the nervous system and are thought to play a critical role in inflammation and immunomodulation. Tachykinins have been implicated in the pathogenesis of many diseases and disease processes including inflammatory pain, emesis, depression, Parkinson's disease and inflammatory bowel syndrome. In the airways of animals, substance P and neurokinin A are released from a subset of airway sensory nerves, and evoke vasodilatation, bronchoconstriction, mucus secretion, leukocyte recruitment, airways hyperreactivity and cough. These observations have led to suggestions that tachykinins may also be viable targets for the treatment of obstructive airways disease. Clinical trials in humans assessing the utility of tachykinin receptor antagonists such as nepadutant and saredutant for the treatment of asthma are limited, and the results for the most part have been inconclusive. Several new tachykinin receptor antagonists have been recently designed to target multiple tachykinin receptor subtypes and to readily penetrate into the central nervous system. Future clinical trials with these compounds should help to shed some light on the role of tachykinins in obstructive airways disease.
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PMID:Targeting tachykinins for the treatment of obstructive airways disease. 1535 Jan 59

Improved understanding of the physiologic and neuropharmacologic mechanisms underlying chemotherapy-induced nausea and vomiting (CINV) has driven significant progress in the treatment of CINV over the past 2 decades. Recognition of the role of neurotransmitters and their receptors in the process of CINV has been central to this progress. Initial attention focused on dopamine, then on serotonin, and most recently on substance P, which has yielded a useful new class of antiemetic medications known as selective neurokinin-1 receptor antagonists. Preclinical studies of these neurokinin-1 receptor antagonists suggested that they would demonstrate broad antiemetic activity in acute emesis, demonstrate activity against cisplatin-induced delayed emesis, be well tolerated, and contribute to enhanced efficacy when used in combination with other classes of antiemetics. These suggestions appear to have been largely borne out in clinical trials. Pharmacogenomics may offer a means to further extend and apply our understanding of CINV by enabling more selective targeting of antiemetic therapies. To date, the application of pharmacogenomics to CINV has focused on variations in the metabolism of serotonin receptor antagonists by CYP 450 genotype and variations in the 5-HT3 receptor gene itself.
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PMID:Understanding the pathobiology of chemotherapy-induced nausea and vomiting. Providing a basis for therapeutic progress. 1551 Sep 75

The 5-HT3 receptor is a ligand-gated cation channel located in the central and peripheral nervous system; it has also been detected on a variety of other cells. In the periphery, it is found on autonomic neurons and on neurons of the sensory and enteric nervous system. In the CNS, the 5-HT3 receptor has been localized in the area postrema, nucleus tractus solitarii, nucleus vaudatus, nucleus accumbens, amygdala, hippocampus, entorhinal, frontal, cingulate cortex, and in the dorsal horn ganglia. Further extraneuronal locations include among others lymphocytes, monocytes, and foetal tissue. 5-HT3 receptors modulate the release of neurotransmitters and neuropeptides like dopamine, cholecystokinin, acetylcholine, GABA, substance P, and serotonin itself. They have been demonstrated to be involved in sensory transmission, regulation of autonomic functions, integration of the vomiting reflex, pain processing and control of anxiety. While the physiologic functions of the 5-HT3 receptor are discrete and difficult to detect, it plays a key role in certain pathologic situations related to increased serotonin release. Clinical development of 5-HT3 receptor antagonists revealed a remarkable range of activities. 5-HT3 receptor antagonists do not modify any aspect of normal behaviour in animals or induce pronounced changes of physiological functions in healthy subjects. Clinical efficacy was shown for various forms of emesis like chemotherapy-induced, radiotherapy-induced, and postoperative emesis, diarrhoea-predominant irritable bowel syndrome, anxiety, chronic fatigue syndrome, alcohol abuse, and in pain syndromes such as fibromyalgia and migraine. Most recent data also suggest that 5-HT3 receptor antagonists are effective for the treatment of other rheumatic diseases such as rheumatoid arthritis, tendinopathies, periarthropathies, and myofascial pain. Other possible indications under discussion are chronic heart pain and bulimia. Unfortunately, experimental findings do not yet provide a homogenous conception of the significance of 5-HT3 receptors in all investigated fields; in nociception, for example, contradictory observations are still inadequately explained and complicated by bell-shaped dose-response curves. Further elucidation and better understanding of the serotonergic neuronal network remains a task for the next decade.
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PMID:Physiology and pathophysiology of the 5-HT3 receptor. 1551 4

The herbal medicine Ninjin-to has been used for the treatment of gastroenteritis, esogastritis, gastric atony, gastrectasis, vomiting, and anorexia. One of the mechanisms of the empirical effects is assumed to be due to local changes in neuropeptide levels. Sensory afferent neurons in the gastrointestinal mucosa regulate neuropeptides [calcitonin gene-related peptide (CGRP), substance P, etc.], which play various physiologic roles. To determine whether the pharmacologic effects of Ninjin-to on the gastrointestine are due to changes in gastrointestinal mucosa regulatory peptide levels, we examined the effects of Ninjin-to on the levels of CGRP-like immunoreactive substances (IS) and substance P-IS in plasma taken from five healthy subjects. A single oral administration of 6.0 g of Ninjin-to caused significant increases in plasma CGRP-IS at 40 min and 60 min, and in substance P-IS levels at 90 min, compared with a placebo group. These results may indicate that the pharmacologic actions of Ninjin-to are closely related to changes in CGRP-IS and substance P-IS levels.
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PMID:Effects of Ninjin-to on levels of calcitonin gene-related peptide and substance P in human plasma. 1557 27

The chemotherapeutic agent cisplatin may produce emesis via release of several neurotransmitters such as serotonin (5-HT), substance P and/or dopamine as well as production of prostaglandins (PGs). Administration of synthetic 2-arachidonoylglycerol (2-AG) but not of anandamide, which are two putative endocannabinoids, causes vomiting via its downstream metabolites such as arachidonic acid (AA) and PGs in the least shrew (Cryptotis parva). We report here that cisplatin (0, 5, 10 and 20 mg/kg, i.p.) causes dose- and time-dependent increases in brain tissue levels of 2-AG but not anandamide in this vomiting species. Concomitantly, intestinal tissue levels of both endocannabinoids are relatively reduced. Selective inhibitors [arachidonoyl-serotonin (AA-5-HT) and URB597, 0-5 and 0-10 mg/kg, i.p.] of one of the major endocannabinoid metabolic enzymes, the intracellular fatty acid amide hydrolase (FAAH), do not significantly prevent vomiting produced by emetic doses of i.p.-administered 2-AG, cisplatin or the dopamine receptor agonist apomorphine. At large doses (10 and 20 mg/kg, respectively), both FAAH inhibitors caused emesis per se. Administration of one selective uptake inhibitor of endocannabinoids, OMDM1 (0-5 mg/kg, i.p.), also did not significantly prevent emesis by the direct and indirect emetic stimuli, and likewise caused emesis by itself at a high (10 mg/kg) dose. However, another selective uptake inhibitor, VDM11, did not produce significant emesis per se and prevented emesis caused by apomorphine. Both the corticosteroid dexamethasone, and the cyclooxygenase inhibitor indomethacin, reduced vomiting produced by cisplatin. These data: (a) provide the first evidence that cisplatin causes a selective increase in 2-AG levels in the brain, and (b) support the established notion that 2-AG may produce some of its effects, including emesis, via downstream metabolites produced independently of FAAH.
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PMID:Cisplatin increases brain 2-arachidonoylglycerol (2-AG) and concomitantly reduces intestinal 2-AG and anandamide levels in the least shrew. 1592 9

Opiates are the primary treatment for pain management in cancer patients reporting moderate to severe pain, and are being increasingly used for non-cancer chronic pain. However, prolonged administration of opiates is associated with significant problems including the development of antinociceptive tolerance, wherein higher doses of the drug are required over time to elicit the same amount of analgesia. High doses of opiates result in serious side effects such as constipation, nausea, vomiting, dizziness, somnolence, and impairment of mental alertness. In addition, sustained exposure to morphine has been shown to result in paradoxical pain in regions unaffected by the initial pain complaint, and which may also result in dose escalation, i.e. 'analgesic tolerance'. A concept that has been gaining considerable experimental validation is that prolonged use of opioids elicits paradoxical, abnormal pain. This enhanced pain state requires additional opioids to maintain a constant level of antinociception, and consequently may be interpreted as antinociceptive tolerance. Many substances have been shown to block or reverse antinociceptive tolerance. A non-inclusive list of examples of substances reported to block or reverse opioid antinociceptive tolerance include: substance P receptor (NK-1) antagonists, calcitonin gene-related peptide (CGRP) receptor antagonists, nitric oxide (NO) synthase inhibitors, calcium channel blockers, cyclooxygenase (COX) inhibitors, protein kinase C inhibitors, competitive and non-competitive antagonists of the NMDA (N-methyl-D-aspartate) receptor, AMPA (alpha-amino-3-hydroxy-5-methyl-4 isoxazolepropionic acid) antagonists, anti-dynorphin antiserum, and cholecystokinin (CCK) receptor antagonists. Without exception, these substances are also antagonists of pain-enhancing agents. Prolonged opiate administration indeed induces upregulation of substance P (SP) and calcitonin gene-related peptide (CGRP) within sensory fibers in vivo, and this is accompanied by an enhanced release of excitatory neurotransmitters and neuropeptides from primary afferent fibers upon stimulation. The enhanced evoked release of neuropeptides is correlated with the onset of abnormal pain states and opioid antinociceptive tolerance. Importantly, the descending pain modulatory pathway from the brainstem rostral ventromedial medulla (RVM) via the dorsolateral funiculus (DLF) is critical for maintaining the changes observed in the spinal cord, abnormal pain states and antinociceptive tolerance, because animals with lesion of the DLF did not show enhanced evoked neuropeptide release, or develop abnormal pain or antinociceptive tolerance upon sustained exposure to opiates. Microinjection of either lidocaine or a CCK antagonist into the RVM blocked both thermal and touch hypersensitivity as well as antinociceptive tolerance. Thus, prolonged opioid exposure enhances a descending pain facilitatory pathway from the RVM that is mediated at least in part by CCK activity and is essential for the maintenance of antinociceptive tolerance.
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PMID:Is paradoxical pain induced by sustained opioid exposure an underlying mechanism of opioid antinociceptive tolerance? 1621 2

Depression is a highly debilitating disorder that has been estimated to affect up to 21% of the world population. Despite the advances in the treatment of depression with selective serotonin reuptake inhibitors (SSRIs) and serotonin and norepinephrine reuptake inhibitors (SNRIs), there continue to be many unmet clinical needs with respect to both efficacy and side effects. These needs range from efficacy in treatment resistant patients, to improved onset, to reductions in side effects such as emesis or sexual dysfunction. To address these needs, there are numerous combination therapies and novel targets that have been identified that may demonstrate improvements in one or more areas. There is tremendous diversity in the types of targets and approaches being taken. At one end of a spectrum is combination therapies that maintain the benefits associated with SSRIs but attempt to either improve efficacy or reduce side effects by adding additional mechanisms (5-HT1A, 5-HT1B, 5-HT1D, 5-HT2C, alpha-2A). At the other end of the spectrum are more novel targets, such as neurotrophins (BDNF, IGF), based on recent findings that antidepressants induce neurogenesis. In between, there are many approaches that range from directly targeting serotonin receptors (5-HT2C, 5-HT6) to targeting the multiplicity of potential mechanisms associated with excitatory (glutamate, NMDA, mGluR2, mGluR5) or inhibitory amino acid systems (GABA) or peptidergic systems (neurokinin 1, corticotropin-releasing factor 1, melanin-concentrating hormone 1, V1b). The present review addresses the most exciting approaches and reviews the localization, neurochemical and behavioral data that provide the supporting rationale for each of these targets or target combinations.
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PMID:Innovative approaches for the development of antidepressant drugs: current and future strategies. 1648 68


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