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)

Because diazepam binding inhibitor (DBI) and its processing products coexist with gamma-aminobutyric acid (GABA) in several axon terminals, DBI immunoreactivity was measured in the cerebrospinal fluid (CSF) of individuals suffering from various neuropsychiatric disorders, that are believe to be associated with abnormalities of GABAergic transmission. Increased amounts of DBI-like immunoreactivity were found in the CSF of patients suffering from severe depression with a severe anxiety component (Barbaccia, Costa, Ferrero, Guidotti, Roy, Sunderland, Pickar, Paul and Goodwin, 1986). Moreover, the amount of DBI and its processing products was found to be increased in the CSF of patients with hepatic encephalopathy (HE) (Rothstein, McKhann, Guarneri, Barbaccia, Guidotti and Costa, 1989; Guarneri, Berkovich, Guidotti and Costa, 1990). The clinical rating of HE correlated with the extent of the increase in DBI in CSF. Other lines of research suggest that DBI and DBI processing products may be important factors in behavioral adaptation to stress, acting via benzodiazepine (BZD) binding sites, located on mitochondria. DBI and its processing products, ODN and TTN, are present in high concentrations in the hypothalamus and in the amygdala, two areas of the brain that are important in regulating behavioral patterns associated with conflict situations, anxiety and stress. In CSF, the content of DBI changes in association with corticotropin releasing factor (CRF) (Roy, Pickar, Gold, Barbaccia, Guidotti, Costa and Linnoila, 1989). Finally DBI is preferentially concentrated in steroidogenic tissues and cells (adrenal cortical cells, Leydig cells of the testes and glial cells of the brain).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of DBI in brain and its posttranslational processing products in normal and abnormal behavior. 166 69

Recent studies showed that hyperammonaemia caused many of the metabolic changes in portacaval-shunted rats, a model of hepatic encephalopathy. These changes included a depression in the cerebral metabolic rate of glucose (CMRGlc), an indication of decreased brain function. 2. The purpose of the present experiments was to determine whether the depression of CMRGlc caused by ammonia is confined to certain brain structures, or whether the depression is an overall decrease in all structures, such as occurs in portacaval-shunted rats. To accomplish this objective, rats were made hyperammonaemic by giving them intraperitoneal injections of 40 units of urease/kg body wt. every 12 h; control rats received 0.154 m-NaCl. CMRGlc was measured 48 h after the first injection, by using quantitative autoradiography with [6-14C]glucose as a tracer. 3. The experimental rats had high plasma ammonia concentrations (control 70 nmol/ml, experimental 610 nmol/ml) and brain glutamine levels (control 5.4 mumol/ml). Hyperammonaemia decreased CMRGlc throughout the brain by an average of 19%. CMRGlc showed an inverse correlation with plasma ammonia, but a stronger correlation with the brain glutamine content. 4. Hyperammonaemia led to a decrease in CMRGlc throughout the brain that was indistinguishable from the pattern seen in portacaval-shunted rats. This is taken as further evidence that the cerebral depression found in portacaval-shunted rats is a consequence of hyperammonaemia. The observation that depression of CMRGlc correlated more closely with brain glutamine content than with plasma ammonia suggests that metabolism of ammonia is an important step in the pathological sequence.
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PMID:Hyperammonaemia depresses glucose consumption throughout the brain. 187 5

To evaluate the role of severe liver damage on natural killer cell activity, 29 patients with liver cirrhosis were examined. The natural killer cell activity was measured with a 4-hr chromium release assay, and the K562 cell line was employed as target cells. The natural killer cell activity was significantly decreased in cirrhotic patients compared with normal controls and patients with chronic active hepatitis. Cirrhotic patients with Pugh's C grade of severity of liver disease had lower natural killer cell activity. The depression of natural killer cell activity in cirrhotic patients was inversely correlated with prothrombin time ratios, and the natural killer cell activity in cirrhotic patients with hepatic encephalopathy was lower than in patients without hepatic encephalopathy. Thus, the diminished natural killer cell activity in cirrhotic patients might be related to the severity of liver damage.
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PMID:Natural killer cell activity in patients with liver cirrhosis relative to severity of liver damage. 199 65

Behavioral and electrophysiological evidence implicating the GABA-benzodiazepine receptor complex in the pathogenesis of hepatic encephalopathy was obtained using an improved rat model of hepatic encephalopathy caused by thioacetamide-induced fulminant hepatic failure. After the administration of thioacetamide together with supportive therapy, acute hepatocellular failure developed in rats as a result of massive hepatocellular necrosis without evidence of renal failure or hypoglycemia. The evolution of hepatic encephalopathy in this model was sufficiently slow to readily permit the staging of the syndrome. Prominent features of the encephalopathy include a marked reduction in open field activity and an abnormal visual evoked response. Both the deficits in spontaneous motor function and visual evoked response abnormalities of rats in stages III to IV hepatic encephalopathy were significantly improved after the administration of the benzodiazepine receptor ligands flumazenil or Ro 15-4513. Doses of flumazenil or Ro 15-4513 that produced these effects in rats with hepatic encephalopathy had no detectable action on either the behavior or the visual evoked responses of normal rats. The ability of benzodiazepine receptor ligands to ameliorate both the behavioral depression and the visual evoked response abnormalities associated with hepatic encephalopathy in the thioacetamide-induced rat model suggest an involvement of the GABA/benzodiazepine receptor complex in the pathogenesis of hepatic encephalopathy. In addition, the similarity of these observations to those in rabbits with hepatic encephalopathy caused by galactosamine-induced fulminant hepatic failure is compatible with the hypothesis that the mechanisms of hepatic encephalopathy in these two distinct models share a common final pathway, the allosteric enhancement of GABAergic tone through the benzodiazepine receptor.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Reversal of the behavioral and electrophysiological abnormalities of an animal model of hepatic encephalopathy by benzodiazepine receptor ligands. 215 65

During the past decade a new approach to pathogenetic studies of hepatic encephalopathy has been undertaken to identify the neurochemical alterations which characterize the syndrome. Using animal models of hepatic encephalopathy electrophysiological, behavioral, pharmacological and biochemical evidence were provided of an increased functional activity of the GABA-A receptors, including the Benzodiazepine site. These demonstrations seem to explain the increased sensitivity of patients with acute or chronic liver disease to sedative administration. The described increased tone of the GABAergic receptor complex seems to play a key role in the generalized depression of the central nervous system which characterizes hepatic encephalopathy, but other factors seem to contribute to the neuronal derangement present in this syndrome leading to an imbalance between inhibitory and excitatory receptor systems in the brain. Based on these findings a new symptomatic treatment with anti-benzodiazepine compounds which seem temporarily to counteract the symptoms of hepatic encephalopathy, was introduced.
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PMID:Supersensitivity of GABA-A receptors in hepatic encephalopathy. 215 20

A new approach to pathogenetic study of hepatic encephalopathy was recently undertaken in order to identify the neurological alterations of the brain which characterize the coma. In this study attention was firstly addressed to a correct and objective evaluation of the comatose state in rats with fulminant hepatic failure induced by galactosamine. For this purpose visual evoked potentials were utilized since this electrophysiological test proved reliable and sensitive on the basis of an extensive pharmacological study. Two different stages of coma were identified in the rat and they were named mild and severe. Receptor binding studies performed on brain membranes of these rats show in the mild stage an increased number of low and high affinity GABA receptors and a decreased affinity of dopamine receptors. The severe stage is characterized by the persistence of only high affinity GABA receptors and a reduced number of dopamine receptors. This imbalance between inhibitory and excitatory receptor systems may explain the generalized central nervous system depression which characterizes the hepatic encephalopathy while the increased number of benzodiazepine receptors found in both stages of coma may account for the brain supersensitivity to sedative administration of patients with liver disease and for the sedative-induced episodes of coma. These receptor alterations may be attributed to a disuse and/or a partial degeneration of nerve terminals due to peripheral neurotoxins (i.e., ammonia, mercaptans, short chain fatty acids) and the decrease of glutamate decarboxylase activity and of zinc levels in brain tissues seems to be respectively a direct and an indirect demonstration of this phenomenon. Bearing in mind the supersensitivity of the GABA-benzodiazepine receptor system and their reciprocal interaction, a benzodiazepine antagonist was administered to rats in mild stage of encephalopathy. Electrophysiological and benzodiazepine binding studies demonstrated that this treatment can temporarily counteract some of the neurological disturbances of the earlier stage of coma and act as antidote of the sedative-induced episodes of coma.
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PMID:Hepatic encephalopathy. Experimental studies in a rat model of fulminant hepatic failure. 299 24

Acute hepatic failure is characterized by a sudden catastrophic compromise of hepatic failure that causes clinical signs such as anorexia, depression, vomiting, diarrhea, icterus, and encephalopathy. Injurious hepatotoxins, drugs, infectious agents, or metabolic disturbances can cause acute hepatic failure; however, in many cases, the inciting cause is not determined. Treatment is aimed at controlling complications such as fluid-electrolyte imbalances, hepatic encephalopathy, hypoglycemia, bleeding diathesis, gastric ulcer, sepsis, and endotoxemia, in order to provide time for liver regeneration and recovery.
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PMID:Acute hepatic failure. 387 99

Plasma amino acid abnormalities are frequently reported in alcoholics, with the most common abnormalities being those of depressed branched chain amino acids (BCAA) and increased aromatic amino acids. The depression in branched chain amino acids is due to multiple factors including portal-systemic shunting, hyperinsulinemia, hyperglucagonemia (all due to advanced liver disease) as well as dietary deficiency. alpha-Amino-n-butyric acid is a nonessential amino acid derived primarily from the catabolism of methionine, threonine, and serine. Increased levels due to chronic alcohol consumption may reflect altered glutathione metabolism and lipid peroxidation due to alcohol and may be used empirically as a biochemical marker of heavy drinking. The high levels of aromatic amino acids such as tyrosine and tryptophan as well as their breakdown products may be due to impaired hepatic metabolism and appear to play a role in the pathogenesis of hepatic encephalopathy. The effects of high levels of aromatic amino acids may be potentiated by depressed BCAA; these normally compete with each other for CNS transport. Alterations in these amino acids may have implications for nutritional requirements for amino acids in these patients as well as therapeutic approaches.
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PMID:Plasma amino acids in the alcoholic: nutritional aspects. 634 43

Although plasma levels of Met-enkephalin and beta-endorphin are elevated in patients suffering from liver failure, it is not known whether central nervous system (CNS) opioidergic neurotransmission is altered in these patients. Such changes may contribute to the motor dysfunction, psychiatric abnormalities and CNS depression observed in hepatic encephalopathy (HE). Therefore, Met- and Leu-enkephalin, dynorphin A and beta-endorphin levels were measured in discrete brain regions and plasma from thioacetamide-treated rats in Stages II to IV of HE. Pituitary and plasma beta-endorphin, Met- and Leu-enkephalin concentrations increased with the severity of HE by 50 to 290%. Pituitary and brainstem dynorphin A levels increased whereas plasma levels decreased in rats with thioacetamide-induced fulminant hepatic failure. Both striatal Met- and Leu-enkephalin levels increased and hypothalamic concentrations decreased in HE. Concurrent with the increase in striatal Met-enkephalin levels was a 26 to 48% decrease in the density of striatal and hypothalamic delta receptors. No change in either the density or affinity of radioligand binding to mu or delta receptors was observed in the CNS. Finally, administering (+/-)-naloxone (5 and 10 mg/kg) or (+/-)-naltrexone (5-15 mg/kg), but not (+)-naloxone (10 mg/kg), significantly increased the motor activity of rats with Stage III HE. Whereas elevated plasma levels of opioid peptides may play a role in the peripheral manifestations of hepatic failure (ascites and hypotension), increased CNS levels of these peptides may be involved in the neuropsychiatric abnormalities characteristic of HE. Thus, opioid antagonists may be effective in ameliorating some of the neurological manifestations of HE.
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PMID:Brain and plasma levels of opioid peptides are altered in rats with thioacetamide-induced fulminant hepatic failure: implications for the treatment of hepatic encephalopathy with opioid antagonists. 771 65

The physical, clinicopathologic, and survival rates of 77 cats with severe spontaneous hepatic lipidosis are detailed in this report. Cats were subdivided into groups designated as idiopathic lipidosis if no other disease process was recognized, or secondary lipidosis if another disease process was diagnosed. Cats were also subdivided into groups designated as survivors or nonsurvivors on the basis of successful recuperation at 4 months after initial diagnosis. Differences between disease and survival groups were evaluated for significance. Overall, more female cats and middle-aged cats were affected. Presenting complaints of vomiting, anorexia, weakness, and weight loss were common. Physical assessment of most cats showed obvious hepatomegaly, jaundice, dehydration, and a weight loss > or = 25% of usual body weight. Neurobehavioral signs indicative of hepatic encephalopathy, other than ptyalism and depression, were rare. Clinicopathologic features are characterized by hyperbilirubinemia and increased activities of serum ALT, AST, and ALP, with only small if any increase in gamma GT activity. Clinical features distinguishing cats with hepatic lipidosis from those with other serious cholestatic disorders include absence of hyperglobulinemia and low gamma GT activity relative to ALP activity. Although coagulation tests were abnormal in 45% of cats tested (n = 44), few cats showed clinical bleeding tendencies. Most cats received prophylactic vitamin K1 therapy. Forty two cats received aggressive nutritional and supportive care and of these 55% survived. Cats with idiopathic disease were significantly younger, had significantly higher ALP activity and bilirubin concentration, and had a slightly better survival rate than cats with secondary lipidosis. Low PCV, hypokalemia, and an older age were significantly related to nonsurvival. Because of the variety of diets and food supplements used in case management, the influence of nutritional factors on survival could not be evaluated.
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PMID:A retrospective study of 77 cats with severe hepatic lipidosis: 1975-1990. 811 31


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