UMLS:C0011570 - FACTA Search

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

Capsaicin (1 microM) produced, after an initial contraction, a depression of the field stimulation-induced contraction of the guinea-pig isolated ileal longitudinal muscle. Both effects exhibited prompt desensitization, indicating the involvement of a specific action on sensory nerves. The initial contraction was inhibited by [D-Pro4,D-Trp7,9,Phe11]SP-(4-11), a substance P (SP) antagonist, which did not affect the inhibitory component of the response. Incubation of the strips with antiCGRP (CGRP = calcitonin gene-related peptide) serum did not modify the amplitude of the capsaicin-induced contraction but inhibited the twitch depression induced by capsaicin. AntiCGRP serum blocked the effects of exogenous CGRP but not the inhibitory response induced by baclofen. These findings provide evidence that the release of several neuropeptides from sensory nerves determines the visceromotor response to capsaicin in this preparation. In particular, a CGRP-like peptide could be responsible for the inhibitory phase which follows the initial contraction which is due to release of SP and/or related peptides.
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PMID:Several neuropeptides determine the visceromotor response to capsaicin in the guinea-pig isolated ileal longitudinal muscle. 245 31

Galanin (GAL) was applied intrathecally (i.t.) at the lumbar level in decerebrate, spinalized, unanesthetized rats. GAL had no effect on the amplitude of the monosynaptic reflex over a wide concentration range, but at low concentrations if briefly facilitated the flexor reflex and at higher concentrations the facilitation was sometimes followed by a depression. GAL decreased the facilitatory effect of a conditioning stimulus train to C-fibers in the sural nerve. The depressive effect of GAL could be prevented by the i.t. coadministration of calcitonin gene-related peptide (CGRP), but not substance P (SP) and was not reversed by i.t. naloxone or bicuculline. The results illustrate the complex effect of GAL on the spinal cord, possibly exhibiting a biphasic effect. The observed effects on the flexor reflex are probably not due to changes in the excitability of motoneurons. Descending inhibitory pathways or local inhibitory non-GAL interneurons probably are not involved in the depressive effect of GAL. The possibility that the observed effects are related to primary sensory afferents containing not only GAL but also CGRP, and/or to local GAL neurons in the dorsal horn is discussed.
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PMID:The effects of intrathecal galanin and C-fiber stimulation on the flexor reflex in the rat. 247 74

Adenylate cyclase (AC) activity in skeletal muscle cells isolated from new born rats was increased with time in culture, indicating the presence of heterologous supersensitivity as in the case of denervation in vivo. The effect of addition of calcitonin gene-related peptide (CGRP) to the cultures of skeletal muscle cells on increase in the AC activity was studied. The increases in AC activity stimulated by CGRP, isoproterenol, NaF and forskolin were depressed by exposure to CGRP (1 microM) for 24 hours, depression of CGRP-stimulated AC activity being the greatest. The extent of reduction in increase in AC activity depended on the concentration of CGRP and duration of exposure. The AC activity stimulated by CGRP was also decreased by exposure to dbc-AMP for 24 hours. When muscle cells were exposed to CGRP for 3 days, no significant difference among the AC activity stimulated by NaF, forskolin and CGRP was seen. These results suggest that exposure to CGRP for one day caused mainly homologous desensitization of the CGRP receptor, whereas exposure for 3-4 days caused heterologous desensitization of the AC catalytic unit, perhaps by elevating the c-AMP level in the cells. These results imply that CGRP, which is located in the motor nerve terminal, may play a role as a physiological trophic factor on skeletal muscle.
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PMID:Effects of calcitonin gene-related peptide on the adenylate cyclase system in cultured rat skeletal muscle cells. 260 71

Intact and thyro-parathyroidectomized (TPX) Sprague-Dawley rats of both sexes were observed for 24 days under a 12:12 light:dark cycle (Entrainment), followed by 20 days in constant dim red light (Free-Run). Circadian periods and levels of wheel-running activity were examined. Intact females and TPX males were significantly more active and had significantly shorter free-running circadian periods than intact males, and the effects of TPX in females were different from those in males. Circadian periods in TPX females were slightly, but not significantly, shorter than in intact females, and activity levels in TPX females were nonsignificantly depressed relative to intact females. It was also found that day versus night activity levels differed more in TPX animals than in intact animals, especially during entrainment, suggesting that TPXs may be more sensitive to some effects of light. A number of possible explanations for the effects of TPX are considered, including changes in thyroid and calcitonin levels, interactions with gonadal hormones, and possible developmental effects of thyroid hormones on the circadian system. It is also possible that rhythm changes are secondary to alterations in activity levels. Human manic depressives reportedly have an unusually high incidence of thyroid, parathyroid, and calcium regulation abnormalities, display shortened circadian sleep-wake rhythms and abnormal levels of activity, and may also be hypersensitive to some effects of light; in addition, depression predominates in women, whereas mania predominates in men. The present results suggest that thyroid dysfunction could be partially responsible for the some of these abnormalities, and for sex differences in the manifestations of these disorders.
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PMID:Effects of sex, thyro-parathyroidectomy, and light regime on levels and circadian rhythms of wheel-running in rats. 262 53

The thyroidal content of calcitonin (CT) and the serum calcitonin responses to acute hypercalcaemia were studied in female rats during chronic hypocalcaemia induced by parathyroidectomy (PTX), a low calcium (Ca) diet, or both. The thyroidal CT content of the PTX animals 50 days after surgery was twice that of intact rats. An acute intraperitoneal (i.p.) calcium load on day 50 after PTX resulted in an increase in serum CT twice as large as that observed in control animals. Reversal of the chronic hypocalcaemia with 1,25(OH)2D3 resulted in a reduction in thyroidal CT as well as a depression of the calcium-induced CT response. In each case the values were similar to those observed in normocalcaemic controls. A low calcium diet increased the thyroidal CT content in intact rats and induced a further increase in PTX rats. The CT response to an acute Ca load was exaggerated by a low calcium diet in intact as well as in PTX rats. These results suggest that in the rat chronic hypocalcaemia enhances CT storage and secretion.
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PMID:Enhanced calcitonin secretion in the rat after parathyroidectomy and during chronic calcium deprivation. 313 32

The effects of [Gly8-des-Leu16-D-Arg24]-salmon calcitonin (CTA) on spontaneous extracellular activity and the passive membrane properties of rat forebrain neurons were studied in vivo and in vitro. This analogue had negligible ability to lower serum calcium relative to salmon calcitonin (SCT), however, the pattern of neuronal membrane sensitivity to CTA was similar to that produced by SCT and calcitonin generelated peptide. Depression of extracellularly recorded spontaneous action potential firing rate was the predominant response of neurons to microiontophoretic application of each peptide in vivo. Intracellular recordings from septal neurons suggest that the extracellularly observed inhibitory effects may be due to changes in membrane potential. We conclude that different structure-activity relationships may apply to the pharmacological effects of calcitonin in brain and its serum calcium-lowering action.
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PMID:Neuronal membrane sensitivity to a salmon calcitonin analogue with negligible ability to lower serum calcium. 325 76

The multisystem involvement in acute pancreatitis (AP) is a reflection of the pancreatic gland's capacity to produce a number of potent vasoactive peptides, hormones, and enzymes. The various prognostic criteria are early evaluations of these metabolic derangements. The pathogenesis of hypocalcemia, long recognized as an indicator of severity of AP, is multifactorial. Imbalances of parathyroid hormone (PTH)-calcitonin, the interactions of glucagon, gastrin and other pancreatic hormones with PTH-calcitonin, the role of free fatty acids in binding serum calcium with albumin, and the translocation of calcium ion in muscles and liver, have been recently described but remain conflicting theories. Yet, the time-honored theory of calcium-soap formation enjoys wide acceptance. Hyperglycemia, hypoglycemia, and occasional ketoacidosis in acute pancreatitis have been studied thoroughly. The complex cause-and-effect relationship between hyperlipidemia with acute pancreatitis needs further study. The coagulation abnormalities seem to be initiated by activated trypsin, and their role in microvascular coagulation appears to form a unifying hypothesis for major organ dysfunction, but this requires further investigation. Adult respiratory distress syndrome may be the result of active enzymes that digest pulmonary surfactant and/or microvascular thrombosis. The depression of cardiac function and shock are suspected to be secondary to vasoactive peptides such as bradykinin, or myocardial depressant factor, whose structure has yet to be elucidated. The renin-angiotensin alterations and renal complications in acute pancreatitis have received scant attention in the literature. The onset of moderate visual disturbances, or even blindness, in a patient with acute pancreatitis as a result of retinal vessel thrombosis is fortunately uncommon. Rare but interesting are the manifestations such as subcutaneous fat necrosis, arthralgia, and pancreatic encephalopathy. Despite the extensive literature on the complexities of the pathogenesis of complications of acute pancreatitis, there have been very few advances in the prevention and management of specific complications. It is hoped that further work on modification of enzymatic disturbances induced in acute pancreatitis will result in its effective treatment and prevention of serious complications.
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PMID:Systemic complications of acute pancreatitis. 328

Siberian hamsters (Phodopus sungorous sungorous) decrease their food intake when exposed to short ("winter-like") photoperiods. The cause of this naturally-occurring hypophagia is unknown, but it may be due to a heightened sensitivity to the factors that normally terminate food intake in long photoperiods, such as the putative satiety peptides. The purpose of the present investigation was to test whether there would be an enhanced sensitivity to the inhibitory effects of some of these peptides on food intake in short relative to long days. Ad lib-fed, adult female Siberian hamsters were housed in a long photoperiod (LD 14:10) and injected with bombesin, glucagon, cholecystokinin octapeptide (CCK-8) and calcitonin (CT). Food intake was monitored 1, 2, 4, 6, and 24 hr post-injection. Bombesin and glucagon had no effect on food intake in long day-housed hamsters. CCK-8 and CT inhibited food intake; however, CCK-8 did so without any apparent behavioral disruption, while CT produced a marked and prolonged depression of behavior. After 10 weeks of exposure to a short photoperiod (LD 8:16) the hamsters were tested again. The previously ineffective dose of bombesin greatly inhibited food intake following short photoperiod exposure. In addition, an increased inhibition of food intake by CCK-8 was also found. In contrast, glucagon did not decrease food intake and CT still produced its non-specific, behaviorally disruptive effects. To our knowledge, this is the first demonstration that the effectiveness of a putative satiety peptide can be dependent upon a change in the photoperiod.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Photoperiod-peptide interactions in the energy intake of Siberian hamsters. 356 18

To assess the role of peripheral sympathetic nerves in the regulation of calcitonin release, rats subjected to superior cervical ganglionectomy (SCGx) 16-28 h earlier were used. The time periods selected allowed us to examine C cell response during the supraliminal release of sympathetic transmitter that accompanies anterograde degeneration of nerve varicosities as well as during the neural paralysis that ensues thereafter. At the time intervals examined, SCGx did not result in significant changes of basal serum calcitonin or Ca levels. The intraperitoneal administration of CaCl2 brought about an impending increase of serum Ca to the same extent in SCGx and sham-operated rats. A significant depression of calcitonin release was observed in rats killed around the time of nerve terminal degeneration (16-21 h post SCGx) but not about 10 h later. Additionally a delay to achieve a maximal calcitonin response was apparent during nerve degeneration. Injection of the alpha-adrenoceptor blocker phenoxybenzamine significantly increased basal calcitonin levels and restored the depressed calcitonin response to hypercalcemia seen in SCGx rats. Treatment with the beta-adrenoceptor-blocker propranolol counteracted phenoxybenzamine activity but was unable to modify per se calcitonin release in SCGx or sham-operated rats. Basal Ca levels and their increase after intraperitoneal CaCl2 were similar in all examined groups regardless of the drug injected. In an additional experiment phenoxybenzamine injected into SCGx rats in doses one-fifth those employed earlier still reversed both the depression in maximal calcitonin response as well as the delay to attain maximal release after CaCl2, but was unable to affect basal calcitonin levels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Changes in calcitonin release during sympathetic nerve degeneration after superior cervical ganglionectomy of rats. 374 8

Individual neurons in the hypothalamus, thalamus, cortex, and other forebrain areas of urethane-anesthetized, male rats were iontophoretically tested for their membrane sensitivity to salmon calcitonin (CT), human CT, and CT gene-related peptide (CGRP). Extracellular recording of unit activity revealed that depression of neuronal firing was the predominant effect of iontophoretically applied salmon CT (35 of 74 cells tested). Few neurons responded to salmon CT with an increase in firing rate (N = 3). When CGRP was iontophoretically applied a pattern of response resembling that of salmon CT was observed. CGRP was predominantly inhibitory and excited those neurons whose firing rate was increased by salmon CT. Inhibition was also the predominant effect of human CT. However, no neurons were excited by human CT. The results clearly demonstrate that a subpopulation of neurons with membrane sensitivity to salmon CT, human CT, and CGRP are present in the rat forebrain. This finding suggests that modulation of neuronal activity may underlie the behavioral and biochemical effects of these peptides when administered centrally. Endogenous CGRP and CT-like peptides in rat brain may be capable of regulating these events as neurotransmitters or neuromodulators.
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PMID:Calcitonin and calcitonin gene-related peptide alter the excitability of neurons in rat forebrain. 387 16

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