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)

A combination of intracellular electrophysiological recording and injection of horseradish peroxidase with ultrastructural immunocytochemistry was used to investigate the synaptic interplay between substance P- and enkephalin-immunoreactive axonal boutons and three types of functionally characterized dorsal horn neurons in the cat spinal cord. The dorsal horn neurons were classified as nociceptive specific, wide dynamic range and non-nociceptive based on their responses to innocuous and noxious stimuli. Most of the nociceptive neurons (either nociceptive specific or wide dynamic range) contained enkephalin immunoreactivity, but none of the non-nociceptive neurons were positive for enkephalin. Three types of immunoreactive boutons were found in contact with the functionally characterized dorsal horn neurons. These boutons were positive for either substance P, enkephalin, or substance P+enkephalin. Quantitative analysis revealed that the percentages of substance P-immunoreactive boutons apposed to the cell bodies, proximal dendrites and distal dendrites of nociceptive neurons were significantly higher than those of non-nociceptive neurons. Furthermore, the percentages of substance P+enkephalin-immunoreactive axonal boutons apposed to the distal dendrites of nociceptive neurons were significantly higher than those of non-nociceptive neurons and the percentages of enkephalin-immunoreactive boutons apposed to the cell bodies and proximal dendrites of nociceptive neurons were significantly higher than in non-nociceptive neurons. Finally, neither enkephalin-immunoreactive nor substance P+enkephalin-immunoreactive boutons were ever seen presynaptic to substance P-immunoreactive boutons. These results provide evidence of an anatomical substrate within the dorsal horn for the interaction of substance P-mediated with enkephalin-mediated mechanisms. The data support the idea that the modulation of nociceptive input in the dorsal horn by enkephalinergic neurons occurs mainly via a postsynaptic mechanism, and thus suggest that dorsal horn enkephalinergic neurons participate in a local inhibitory feedback loop in a distinct pathway from the previously postulated opioid-mediated depression of substance P release from primary afferent terminals.
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PMID:Substance P and enkephalin immunoreactivities in axonal boutons presynaptic to physiologically identified dorsal horn neurons. An ultrastructural multiple-labelling study in the cat. 907 Jul 53

Hypothermia protects the brain and other vital organs during periods of ischaemia. We differentiate between mild (36-34 degrees C), moderate (33-29 degrees C), deep (28-17 degrees C) and profund (16-4 degrees C) hypothermia. During hypothermia, cerebral metabolic rate and cerebral blood flow decrease dependent on temperature. The relation between temperature and cerebral metabolism is expressed by the temperature coeffizient Q10, which is the ratio between two metabolic rates separated by 10 degrees C. The following factors contribute to decreases in cerebral blood flow seen during hypothermia: cerebral metabolic depression, decreases in cardiac output, and decreases in arterial blood pressure with pH-stat management, increases in hematocrit and in blood viscosity. Mild or moderate hypothermia reduces histopathological damage and neurological deficits if started before and during cerebral ischaemia. Hypothermia may also improve neurologic outcome if initiated following focal cerebral ischaemia, but is less effective after global ischaemic insults. Mild hypothermia appears to be safer and more effective compared to moderate hypothermia. In most instances, deep hypothermia renders neurologic outcome worse, which is most likely related to the generation of toxic metabolites and inadequate myocardial function during rewarming. The neuroprotective effects of hypothermia are related to several mechanisms along the ischaemic cascade: prevention of postischaemic hypoperfusion, reduction of functional and basal metabolism, decreased accumulation of lactic acid and oedema formation, inhibition of excitatory neurotransmitter release, prevention of Ca(++)- and Na(+)-influx, inhibition of lipid peroxidase activity, and free radical formation, stimulation of regenerative immediate early genes. The side effects of hypothermia include myocardial ischaemia, cardiac arrhythmias, decreased left ventricular contractility, coagulation abnormalities, and suppression of metabolic and immunological processes.
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PMID:[Mild and moderate hypothermia as a new therapy concept in treatment of cerebral ischemia and craniocerebral trauma. Pathophysiologic principles]. 928 20

Exposed to a forced walking stress for 2 weeks, some rats became persistently inactive (depression-model rats), whereas others gradually recovered from exhaustion (spontaneous recovery rats). We also studied rats exposed to short-term stress, rats without stress, and the model rats treated with imipramine or saline. We examined the density of noradrenergic axons in the frontal cortex using retrograde labeling of the locus coeruleus with horseradish peroxidase injected into the cortex and immunohistochemical staining of cortical axons with dopamine beta-hydroxylase antiserum. The density was significantly lower in the depression-model rats, but tended to be higher in the recovery rats and short-term stressed rats. Chronic treatment with imipramine significantly increased the density in the model rats. There was also a correlation between the density of noradrenergic axons and the recovery rate of activity. Our results suggest that cortical noradrenergic degeneration is involved in the pathogenesis of depression.
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PMID:Long-term stress degenerates, but imipramine regenerates, noradrenergic axons in the rat cerebral cortex. 932 62

Extracts from the herb "St. John's wort" (Hypericum perforatum L.), besides other activities such as wound healing, antigout, antirheumatic and diuretic properties, are widely used to counteract neurological disorders such as depressive situations, nervousness and sleeplessness. The characteristic and leading component in these extracts, the dianthraquinone hypericin, is very likely not to represent the main active principle mediating the desirable effects. Thus, standardization of the drug is no longer based on the quantification of total hypericin and since several years simply the determination of dry matter content is in use instead. As biochemical background of depression the lack of catecholamine neurotransmitters or decreased beta-endorphins such as methionine- or leucine-enkephalins have to be envisaged. This communication reports on the inhibition of myeloperoxidase-catalyzed dimerization of enkephalins by Hypericum extracts. The substitution for enkephalins by tyrosine and for myeloperoxidase by horseradish peroxidase may represent a simple and inexpensive biochemical model reaction of pathological events during the manifestation of depressive events suitable for drug standardization.
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PMID:Biochemical activities of extracts from Hypericum perforatum L. 2nd Communication: inhibition of metenkephaline- and tyrosine-dimerization. 1008 78

The sulphydryl agent, cysteamine, accelerates the ageing-related accumulation of peroxidase-positive (iron-rich) cytoplasmic inclusions in rat subcortical astroglia and induces their appearance in primary neuroglial cultures. In the present study, infusion of cysteamine into the lateral ventricle of young, adult rats (1 mg/day for three weeks followed by a one-month drug "washout" period) significantly increased numbers of peroxidase-positive astrocytic granules in the stratum oriens of the CA1 hippocampus relative to saline-infused controls. In contrast to the gliopathic changes, no evidence of neuronal or myelin damage was observed in the cysteamine-exposed rats. The cysteamine-treated animals exhibited significant impairment in spatial learning as determined using a three-panel runway task. The working memory deficits were more robust at the end of the drug washout period than immediately following cessation of the cysteamine infusion. Thus, the cysteamine-related memory deficits are of long duration and are not due to any acute neuroactive properties of the drug itself. Using hippocampal slices prepared after the drug washout period, we observed attenuated paired-pulse depression, with no significant effects on basal excitatory synaptic transmission or induction of long-term potentiation, in the cysteamine-infused animals relative to controls. We propose that, in cysteamine-treated rats and in the course of normal ageing, hippocampal dysfunction and associated cognitive deficits may be secondary to fundamental pathological processes originating within the astroglial compartment.
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PMID:Acceleration of ageing-related gliopathic changes and hippocampal dysfunction following intracerebroventricular infusion of cysteamine in adult rats. 1021 9

Cigarette smoking and nonsteroidal antiinflammatory drugs (NSAIDs) have been associated with gastroduodenal ulcers. The present study aimed to clarify the ulcerogenic mechanisms of passive cigarette smoking on gastrointestinal damage induced by indomethacin in fasted or in fasted and refed rats. Rats were exposed to cigarette smoke (0%, 1%, 2%, or 4%, v/v) before and/or after indomethacin administration. Cigarette smoke dose-dependently potentiated indomethacin-induced gastric mucosal lesions in the fasted animals and further lowered gastric blood flow. The gastric myeloperoxidase activity (a marker enzyme for neutrophils) was also potentiated. In addition, passive cigarette smoking increased the mortality and aggravated duodenal ulceration and also the reduction of duodenal blood flow in the fasted and refed rats after indomethacin treatment. The results indicated that the potentiating effect of passive cigarette smoking on indomethacin-induced gastroduodenal lesions is probably due to the depression of blood flow in the gastroduodenal mucosa and to the aggravation of neutrophil infiltration in the gastric mucosa.
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PMID:Potentiating effect of passive cigarette smoking on gastrointestinal damage induced by indomethacin in rats. 1023 93

Lactic acid bacteria in food can transiently colonize the intestine and exert health beneficial (probiotic) effects. These include: 1. Lactose digestion, improvement of diarrheal disorders (including traveller's diarrhea), prophylaxis of intestinal and urogenital infections--as a result of formation or reconstruction of a balanced indigenous microflora. 2. Inhibition of the mutagenicity of the intestinal contents and reduction of the incidence of intestinal tumours. 3. Immunomodulatory effects resulting in the improved host resistance. 4. Depression of the serum cholesterol level. The most of these effects were observed in a group of adult subjects administered daily by a lyophilized Enterococcus faecium M-74 in the form of waffles (Dr. Ebi) during nine weeks of a double blind placebo controlled clinical trial. The bacterium temporarily colonized the host intestine and its secretion in stool persisted for six weeks after the last dose. The mean activities of beta-D-glucuronidase in stools of subjects given waffles containing enterococci were reduced comparing to stools of placebo subjects. After six weeks of daily eating the waffles with enterococci, an increased production of superoxide and other reactive oxygen intermediates by peripheral neutrophils was observed. The increase corresponded in time with an elevated formation of IgG by peripheral blood mononuclear cells after polyclonal activation with mitogenes. Higher activities of myeloperoxidase and elastase in peripheral neutrophils were also ascertained during eating of waffles containing of E. faecium M-74. Hence, intake of E. faecium M-74 in the form of waffles may have an significant immunostimulatory effect on both phagocytosis performed by neutrophils and antibody production. (Tab. 6, Ref. 29.)
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PMID:[Successful modification of human intestinal microflora with oral administration of lactic acid bacteria]. 1050 Mar 27

In our study the pathomechanism of sepsis-induced early myocardial depression was investigated. We determined the effects of the inducible nitric oxide synthase inhibitor and free radical scavenger mercaptoethylguanidine (MEG) on the myocardial contractility, the endothelial and inducible nitric oxide synthase (eNOS and iNOS) activities, and the activation and tissue accumulation of polymorphonuclear leukocytes in hyperdynamic endotoxemia in dogs. Group 1 served as endotoxemic control. Mean arterial pressure and cardiac output were measured, myocardial contractility was estimated from the end-systolic pressure-diameter relationship. The eNOS, iNOS and myeloperoxidase activities were determined on myocardial biopsy samples, and the free radical-producing capacity of granulocytes was measured from separated cells. The effect of MEG on the in vitro free radical production of isolated granulocytes was measured by chemiluminometry. Endotoxin induced a hyperdynamic circulatory reaction and significant myocardial depression. The myocardial eNOS activity was significantly increased 4 h after induction of endotoxemia and remained elevated, the iNOS activity was increased only 8 h after endotoxemia induction. The free radical-producing capacity and the myocardial accumulation of the granulocytes were significantly increased. In group 2, MEG treatment selectively inhibited the iNOS activity, prolonged the hyperdynamic circulatory reaction, prevented myocardial depression and decreased the activation and tissue accumulation of granulocytes. The compound dose-dependently decreased the in vitro activation of previously resting granulocytes. Our study demonstrates that iNOS do not contribute to the early cardiac failure in endotoxemia. MEG selectively inhibits iNOS in vivo, but its beneficial effects are rather related to the decreases in leukocyte and free radical-mediated myocardial dysfunction during early endotoxemia.
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PMID:Prevention of early myocardial depression in hyperdynamic endotoxemia in dogs. 1063 69

Dry mouth is one of the major side effects of cyclic antidepressants, which are still a dominating group of psychotherapeutic drugs used in the treatment of depression. In this study we analyzed the effects of 28 day tricyclic antidepressant administration and the reversibility of this treatment following a 15 day washout period on different parameters in submandibular gland function in aging rats. We postulated that desipramine would decrease gland function, accented with age, and delay recovery in senescent animals. In contrast to body weight, desipramine had no effect on glandular wet weight. While glandular DNA synthesis was changed with age and treatment, the concentration of total membrane and soluble proteins was not affected. Flow rate was significantly changed with age, but desipramine increased salivary flow in the youngest animals only. Neither age nor treatment influenced salivary protein concentrations, but the total amount of proteins secreted, revealed perturbation with age. SDS- polyacrylamide gel analysis revealed changes in protein expression with treatment and age. Desipramine decreased epidermal growth factor (EGF) levels in all age groups, but increased the secretion of peroxidase and lysozyme. Analysis of total RNA showed a pronounced decrease with age. These data indicate that desipramine has profound effects on submandibular salivary gland function.
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PMID:An analysis of submandibular salivary gland function with desipramine and age in female NIA Fischer 344 rats. 1108 May 33

Cyclic antidepressants are still a dominating group of psychotherapeutic drugs used in the treatment of depression. Dry mouth is one of their major side effects. In this study we analyzed the effects of the long-term administration of the tricyclic antidepressant desipramine and the reversibility of this treatment following a 15-day washout period on different parameters in parotid gland function in aging rats. We hypothesized that glandular function would be decreased, and recovery delayed with age. Drug treatment affected body weight, glandular weight, DNA synthesis, and the concentration of soluble and structural membrane proteins. Surprisingly, parotid flow rate was increased with desipramine in all ages. While the concentration of secreted proteins was generally decreased with treatment, total proteins secreted were quite stable. SDS/PAGE analysis revealed prominent changes with desipramine. Amylase activity was depressed with treatment, but only low residual cellular enzyme activity was detected in the glandular supernatant. Therefore, a secretory impairment with desipramine was excluded. The content of the antimicrobial proteins peroxidase and lysozyme was increased with desipramine in all age groups. Most parameters measured revealed delayed recovery with age. These data indicate that the tricyclic antidepressant desipramine has profound effects on parotid gland function, accented with age.
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PMID:An analysis of parotid salivary gland function with desipramine and age in female NIA Fischer 344 rats. 1116 18


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