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:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of morphine on the ascending excitatory reflex of the circular muscle elicited by radial distension of the gut wall was studied in the isolated guinea-pig small intestine. A three compartment bath, in which an intermediate compartment divided the site of intraluminal stimulation (caudal compartment) from the site of reflex contraction recording (oral compartment), was used. Morphine (0.01-10 microM) applied independently to each compartment, caused a concentration-dependent depression (up to 90%) of the amplitude of distension-evoked reflex contractions. Concentration-response curves to morphine were shifted to the right by naloxone (30 nM) with an apparent pA2 value of about 8.5, which suggests an interaction with opioid mu-receptor subtypes. Our results indicate that morphine not only depressed transmission from excitatory motor neurons to the circular muscle but also neuro-neuronal transmission along the ascending excitatory reflex pathway.
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PMID:Sites of action of morphine on the ascending excitatory reflex in the guinea-pig small intestine. 133 12

Jejunoileal bypass operation was originally done to promote weight loss for treatment of morbid obesity. We used such a model to determine if dietary vitamin absorption is compromised by such an operation. Six rats were subjected to a jejunoileal bypass, 6 control rats were pair-fed to bypassed rats; and 6 were fed ad libitum. Vitamin content of folic, B6, riboflavin, nicotinate, pantothenate, thiamin, biotin, B12, vitamins A, E, and carotene in blood and liver was determined after 8 postoperative weeks. Aside from riboflavin, blood vitamin levels were significantly depressed in bypassed rats. The deepest depression was seen for B12, carotene and vitamin E. Liver vitamin stores of folate, riboflavin, thiamin, B12, clearly were significantly depressed in the bypassed animals compared to the pair-fed and ad libitum-fed controls. This model can serve for rapidly studying micronutrient depletion due to malabsorption without dietary manipulation or antibiotics for gut sterilization.
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PMID:A jejunoileal bypass rat model for rapid study of the effects of vitamin malabsorption. 158 7

Experiments were designed to examine in vivo changes in total transcription and in the expression of the c-fos gene following whole-body exposure of mice to JANUS fission-spectrum neutrons. Radiation repair-deficient (wst/wst) and -proficient (wst/., C57BL/6 x C3H F1) mice were exposed to JANUS fission-spectrum neutrons calibrated to deliver a gut dose of 50 cGy. Animals were sacrificed less than 10 or at 60 min postirradiation, and gut tissues were removed for study. Our results revealed that, in repair-proficient mice, an immediate depression (relative to untreated control) in total transcription was evident that continued through 1 h postirradiation. Conversely, radiation-sensitive wst/wst mice displayed doubled transcription levels postirradiation. Expression of c-fos was consistently depressed following radiation exposure in control and wst/wst mice. However, the depression of c-fos mRNA was delayed in wst/wst mice relative to controls. These results demonstrate abnormal regulation of transcription and of c-fos mRNA accumulation in repair-deficient wasted mice following exposure to ionizing radiation. In addition, this work documents rapid total transcriptional depression in normal mice following radiation exposure.
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PMID:Differential effect of ionizing radiation on transcription in repair-deficient and repair-proficient mice. 169 64

The calcium antagonists are a heterogeneous class of drugs which block the inward movement of calcium into cells through 'slow channels' from extracellular sites. By inhibiting phase 0 depolarisation in cardiac pacemaker cells and phase 2 plateau in myocardium, and by depressing calcium ion flux in smooth muscle cells of blood vessels, these agents may exert profound effects on the cardiovascular system, particularly in susceptible individuals or in overdose. Sinus node depression, impaired atrioventricular (AV) conduction, depressed myocardial contractility, and peripheral vasodilatation may result. Pharmacokinetic features of calcium antagonists include rapid and complete absorption from the gastrointestinal tract, with extensive first-pass hepatic metabolism yielding generally low bioavailability. The volume of distribution is generally large and protein binding is high. Elimination is almost entirely by the liver. Impaired renal function does not affect pharmacokinetics. Verapamil is the most potent inhibitor of cardiac conduction and contractility, with diltiazem also showing such effects. Nifedipine is the most potent vasodilator, but only occasionally impairs the sinus node or AV conduction. Significant pharmacodynamic effects are common during combination therapy with calcium antagonists, especially verapamil and beta-blockers. Verapamil may significantly elevate serum digoxin concentrations and may exert additive negative effects on chronotropism and dromotropism when this combination is used. Overdoses of calcium entry blockers are becoming more frequent and reflect an extension of the known pharmacodynamic profile of these agents. Typical features include confusion or lethargy, hypotension, sinus node depression and cardiac conduction defects. Onset of symptoms may be delayed if a sustained release preparation is ingested. Management of calcium antagonist overdose includes gut decontamination with lavage and activated charcoal. All symptomatic patients and patients with a history of ingesting a sustained release preparation should be admitted for ECG monitoring. If bradycardia and/or conduction defects contribute to hypotension, atropine or isoprenaline (isoproterenol) may accelerate the ventricular rate. Transvenous pacing may be required. Depressed myocardial contractility usually responds well to calcium chloride or calcium gluconate administration, but further inotropic support may be required. Peripheral vasodilation should be managed with intravenous fluids and a pressor agent such as dopamine or norepinephrine (noradrenaline).
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PMID:Poisoning due to calcium antagonists. Experience with verapamil, diltiazem and nifedipine. 179 22

Despite continuous exposure to gut-derived endotoxin (lipopolysaccharide) under normal conditions, Kupffer cells (KC) fail to generate detrimental cytokine responses. KC function within a unique microenvironment in which high hepatic arginase activities (25 times greater than those activities in the kidney) result in negligible local L-arginine levels. To evaluate the relevance of this profound arginine deficiency on the physiologic function of KC, the kinetics of tumor necrosis factor (TNF-alpha) production and autoregulatory eicosanoid prostaglandin E2 (PGE2) production were compared in lipopolysaccharide-stimulated KC cultured with (1200 mumol/L) and without (10 mumol/L) L-arginine media. In (+)arginine culture the KC TNF-alpha production peaked early before decreasing as PGE2 production increased. In (-)arginine culture, however, KC TNF-alpha production was significantly (p less than 0.01) reduced, whereas PGE2 production was amplified (p less than 0.01). When cyclooxygenase blockade with indomethacin completely prevented KC production of PGE2 in (-)arginine culture, TNF-alpha production was upregulated (p less than 0.001 vs (-)arginine; p not significant vs (+)arginine). These arginine-specific depression of TNF-alpha responses appeared unique to KC because both TNF-alpha and PGE2 levels increased when peritoneal, pleural, and alveolar macrophages were stimulated by lipopolysaccharide in (-)arginine medium. This PGE2-dependent autoregulation of potentially harmful lipopolysaccharide-induced TNF-alpha responses may reflect an evolutionary adaptation by KC to their local hepatic environment and strategic anatomic position in the portal circuit, which optimally removes endotoxin and naturally protects the host.
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PMID:A biologic basis for limited Kupffer cell reactivity to portal-derived endotoxin. 185 31

The gut may be a site of early diabetic neuropathy in humans and rats. The latter may provide appropriate models of these conditions. Therefore, cholinergic function was examined in two gut smooth muscle preparations from control, 30-day, and 6-month streptozotocin-diabetic and similarly diabetic rats that had received continuous treatment with an aldose reductase inhibitor, ponalrestat. Responses of terminal ileum longitudinal muscle to transmural nerve stimulation were depressed in preparations from untreated 30-day diabetic animals. Responses to exogenous acetylcholine were also depressed, by at least the same extent, in preparations from both 30-day and 6-month diabetic groups. Ponalrestat treatment prevented both changes in the 30-day study but did not prevent a depression of responses to acetylcholine in the 6-month study. Neither diabetes nor ponalrestat affected responses of esophageal muscularis mucosa to electrical stimulation or to exogenous acetylcholine. These observations suggest a change in the smooth muscle and/or noncholinergic innervation rather than in the cholinergic nerves of the ileal preparation. Cholinergic function in the ileum did not, therefore, seem to be an appropriate model of diabetic neuropathy.
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PMID:Effects of diabetes on cholinergic transmission in two rat gut preparations. 189 95

The involvement of GABAergic systems in the pathogenesis of HE was supported by electrophysiologic studies of single Purkinje neurons from rabbits with HE which demonstrated the hypersensitivity of these neurons to depression by GABA and BZ receptor agonists. In contrast, these neurons were excited by BZ receptor antagonists. At concentrations which had no effect on neuronal activity, BZ receptor antagonists also reversed the hypersensitivity of HE neurons to depression by muscimol. This combination of neuronal responses is consistent with an increase in the concentration or availability of a ligand for the BZ receptor with agonist properties in the brains of rabbits with HE. Subsequent neurochemical studies support these electrophysiologic observations. Autoradiographic techniques indicated the presence of a reversible inhibitor of [3H]Ro 15-1788 and [3H]flunitrazepam binding to the cerebral and cerebellar cortices of rabbits with HE. The ability of this substance to inhibit [3H]flunitrazepam binding to HE rabbit brain sections was further enhanced in the presence of NaCl and GABA. The autoradiographic studies suggested that the density and affinity of the components of the GABA-BZ receptor complex are unaltered in this animal model of HE. This inference is fully supported by the subsequent studies of radioligand binding to well-washed membrane preparations. Finally, extracts of HE rabbit brains yielded a family of substances with the properties of BZ receptor agonists. These substances may include, but are not limited to, diazepam, oxazepam and desmethyldiazepam, but do not include substances commonly elevated in the plasma and CSF of patients with HE4. The positive identification of these substances awaits confirmation by mass-spectroscopic analysis. However, the precedent for the presence of a family of benzodiazepines in animals that were not administered these drugs has been set. The origin of these substances is a matter of ongoing research. Several studies have shown the presence of benzodiazepines in plant and animal materials. It is possible that these "endogenous" benzodiazepines are the result of contamination of the food chain. A normally functioning liver would capture and metabolize these compounds after their absorption from the gut. This function of the liver would be impaired in liver failure, thus allowing sufficient levels of BZ receptor agonists to accumulate in the CNS, contributing to the pathogenesis of HE. However, studies by DeBlas and coworkers have reported that 1,4 benzodiazepines are present in human brains preserved prior to the commercial use of these compounds. Further, they have found benzodiazepines in cell lines cultured without potential exogenous sources of benzodiazepines.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The involvement of the benzodiazepine receptor in hepatic encephalopathy: evidence for the presence of a benzodiazepine receptor ligand. 196 66

Morphine slows hepatobiliary elimination of sulfobromophthalein in rodents, raising dye levels in plasma and liver. Earlier studies showed these effects to be independent of other opiate effects such as bile duct spasm, hypothermia or blood gas changes resulting from respiratory depression. Because opiate receptors are distributed throughout the body, within the central nervous system and at peripheral sites including the gastrointestinal tract, experiments were performed to ascertain whether central or peripheral sites mediate the hepatobiliary effects of morphine. Sulfobromophthalein was administered intravenously to mice and its levels were measured in plasma and liver. Tail-flick latency indicated centrally mediated analgesia. Inhibited intestinal transit of India ink reflected an opiate effect with a significant peripheral component. When injected into a cerebral ventricle morphine was much more potent in producing analgesia and raising sulfobromophthalein levels than when administered intravenously or intraperitoneally. An intravenous dose of naloxone that reversed morphine analgesia also prevented sulfobromophthalein elevation but did not prevent gut slowing. Naltrexone injected in a cerebral ventricle also reversed analgesia and sulfobromophthalein elevation but not intestinal slowing. The polar opiate agonist N-methylmorphine did not cause analgesia or raise sulfobromophthalein levels at peripheral intraperitoneal doses to 100 mg/kg. When given in a central ventricle at 4 x 10(-3) mg/kg, this agent produced analgesia and raised sulfobromophthalein but did not slow intestinal transit. After spinal cord transection, intravenous morphine did not retard the tail-flick response or affect sulfobromophthalein disposition, but peripherally mediated intestinal transit was slowed as it was in intact mice. These experiments demonstrate parallel opiate effects on analgesia and on BSP disposition but not on intestinal transit.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hepatobiliary effects of morphine are mediated in the brain. 217 93

Quinidine, procainamide and disopyramide are antiarrhythmic drugs in the class 1A category. These drugs have a low toxic to therapeutic ratio, and their use is associated with a number of serious adverse effects during long term therapy and life-threatening sequelae following acute overdose. Class 1A agents inhibit the fast inward sodium current and decrease the maximum rate of rise and amplitude of the cardiac action potential. Prolonged Q-T interval and, to a lesser extent, QRS duration may be observed at therapeutic concentrations of quinidine. With increasing plasma concentrations, progressive depression of automaticity and conduction velocity occur. 'Quinidine syncope' (a transient loss of consciousness due to paroxysmal ventricular tachycardia, frequently of the torsade de pointes type) occurs with therapeutic dosing, often in the first few days of therapy. Extracardiac adverse effects of quinidine include potentially intolerable gastrointestinal effects and hypersensitivity reactions such as fever, rash, blood dyscrasias and hepatitis. Procainamide produces electrophysiological changes that are similar to those of quinidine, although Q-T interval prolongation with the former is less pronounced at therapeutic concentrations. Hypersensitivity reactions including fever, rash and (more seriously) agranulocytosis are associated with procainamide, and a frequent adverse effect requiring cessation of therapy is the development of systemic lupus erythematosus. Of the 3 drugs, disopyramide has the most pronounced negative inotropic effects, which are especially significant in patients with pre-existing left ventricular dysfunction. As with quinidine, unexpected 'disopyramide syncope' at therapeutic concentrations has been described. Anticholinergic side effects are common with this drug and may require cessation of therapy. Disopyramide therapy may unpredictably induce severe hypoglycaemia. Severe intoxication with the class 1A agents may result from acute accidental or intentional overdose, or from accumulation of the drugs during long term therapy. Acute overdose can result in severe disturbances of cardiac conduction and hypotension, frequently accompanied by central nervous system toxicity. Decreased renal function can cause significant accumulation of procainamide and its active metabolite acecainide (N-acetyl-procainamide), resulting in severe intoxication. Mild to moderate renal dysfunction is less likely to lead to quinidine or disopyramide intoxication, unless renal failure is severe or concurrent hepatic dysfunction is present. Management of acute intoxication with class 1A drugs includes gut decontamination with provision of respiratory support and treatment of seizures as needed. Hypertonic sodium bicarbonate, by antagonising the inhibitory effect of quinidine on sodium conductance, may reverse many or all manifestations of cardiovascular toxicity.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Poisoning due to class IA antiarrhythmic drugs. Quinidine, procainamide and disopyramide. 228 95

Previous studies describing the histologic elements of multi-system organ failure caused by bacterial sepsis may have been complicated by a significant interaction on tissue injury from either a preterminal low-flow state or the effects of therapy immediately before death. Therefore we evaluated the nonpulmonary histologic findings of sepsis during a 3-day period that followed cecal ligation and perforation. In this septic model, mean arterial perfusion pressures remained unchanged from baseline, systemic flows rose by 54%, and laboratory evidence of organ dysfunction including an elevation of the serum bilirubin levels and a depression of the serum total protein values was considered mild. Concurrently, development of the hyperdynamic central circulatory septic state was associated with widespread histologic changes in myocardium, striated muscle, liver, gut, and pancreas. Lesions common to these organs included high-protein interstitial and intracellular edema, mitochondrial destruction, and patchy cell necrosis. Lesions within the pancreas were exaggerated over those noted in other organs. Of all organs examined, only the liver demonstrated microvascular neutrophil accumulation. Unlike models of shock caused by sepsis, fibrin thrombi were not seen in the microvasculature of any organ. We conclude that tissue injury characterized by the accumulation of protein-rich extravascular fluid and the development of reversible and irreversible cell injury antedated significant multiple-system organ failure in this animal model of normotensive sepsis.
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PMID:Histologic and ultrastructural changes in nonpulmonary organs during early hyperdynamic sepsis. 232 Nov 37


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