UMLS:C0040822 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0040822 (tremor)
18,428 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The sparse population of brainstem 5-hydroxytryptamine1C (5-HT1C) (also called 5-HT2C) receptors has received little attention despite its possible role in the serotonin syndrome and 5-HT-mediated shaking behavior. We characterized [3H]mesulergine binding in rat brainstem and, to determine if brainstem 5-HT1C sites respond to serotonergic manipulations, performed saturation studies of [3H]mesulergine binding in brainstem from rats treated chronically with 11 different 5-HT1C/2 agonists and antagonists. 2. In competition studies in vitro, the rank order of drug potency was most compatible with a 5-HT1C receptor binding site: mianserin, 5-HT, cinanserin, 1-(3-chlorophenyl)piperazine (m-CPP), 1-(2-5-dimethoxy-4-iodophenyl)-2-aminopropane (DOI), MDL 100,907, RU 24969, 5-carboxamidotryptamine (5-CT), 8-OH-DPAT, MDL 72,222. 3. Chronic treatment with the agonists quipazine and trifluoromethylphenylpiperazine (TFMPP) and the antagonists ritanserin and methiothepin significantly down-regulated brainstem 5-HT1C sites, which were 65% of [3H]mesulergine-labeled sites in brainstem. Only metergoline and ritanserin significantly increased pKD. 4. Chronic treatment in vivo with DOI, m-CPP, mianserin, methysergide, spiperone, cyproheptadine, and metergoline had no significant effect on BMAX at the dose studied. 5. These data suggest similarities in the regulation of 5-HT1C and 5-HT2 sites at which both 5-HT1C 2 agonists and antagonists also induce receptor down-regulation. 6. 5-HT1C/2 agonists and antagonists that did not down-regulate brainstem 5-HT1C sites may be more active in vivo at 5-HT2 sites, at 5-HT1C sites in other brain regions, have effects on 5-HT1C receptors not detectable at the recognition site, or differ for pharmacokinetic reasons.
Gen Pharmacol 1994 Oct
PMID:Modulation of brainstem 5-HT1C receptors by serotonergic drugs in the rat. 787 57

Single-nerve fibre action potentials (APs) were recorded extracellularly from sacral nerve roots of people with spinal cord lesion (patients with paraplegia). Single-fibre APs of certain fibres were identified by the conduction velocity and the AP waveform, and simultaneous impulse patterns were extracted from the summed impulse traffic and analysed with respect to spacio-temporal relationships. The velocity values of components of compound APs, induced by electrical nerve root stimulation or electrical intravesical stimulation, were similar to the group conduction velocity values obtained from single-nerve fibre APs of natural impulse traffic. When changing the root temperature in one case from 32 degrees C to 35.5 degrees C, the group conduction velocities changed in the following way: secondary muscle spindle afferents (SP2): 40 m/s (32 degrees C) to 50 m/s (35.5 degrees C); bladder stretch afferents (S1): 31.3 to 40 m/s; bladder tension afferents (ST): 25 to 33.8 m/s; mucosal afferents (M): 12.5 to 13.8 m/s; alpha 1:-; alpha 2-motoneurons: 40 to 50 m/s; alpha 3: 33 to 40 m/s. The group conduction velocities showed different temperature dependence apart from SP2 fibres and alpha 2-motoneurons, which were therefore used for calibration. The distance between two Pacinian corpuscle (PC) receptors in a sacral dermatome of one paraplegic patient was calculated to be approximately 20 mm. A similar distance between PC receptors was found in a brain-dead individual. Receptor densities seem therefore to remain unchanged following spinal cord lesion. Motoneurons fired irregularly repeatedly with impulse trains. In paraplegics the oscillation periods and the interspike intervals of the impulse trains varied much more than observed for brain-dead and normal individuals. Motoneurons could therefore not always be identified by their pattern of oscillatory firing. Alternating long and short oscillation periods (T) could be measured in an oscillatory firing alpha 1 (T = 125 ms) and alpha 2-motoneuron (T = 150 ms). In both cases the average difference between the alternating oscillation periods was 5 ms. Tremor, alternating long and short oscillation periods, cellular oscillator properties, and recurrent excitation and inhibition are discussed with respect to the oscillator theory of the functioning of the human central nervous system. Mathematical predictions from populations of interacting biological oscillators are compared to measurements on neuronal network data.
Gen Physiol Biophys 1996 Aug
PMID:Classification, oscillatory and alternating oscillatory firing of alpha 1 (FF) and alpha 2-motoneurons (FR) in patients with spinal cord lesion. 893 96

Single nerve-fibre action potentials (APs) were recorded extracellularly from alpha and gamma-motoneurons and secondary muscle spindle afferents from a ventral S4 nerve root (some afferents are contained in lower sacral motor roots) in an individual with traumatic spinal cord lesion sub TH1. Simultaneous interspike intervals (IIs) of, and phases between, the APs of 5 nerve fibres were measured, and distributions were constructed. The II distributions were of a broad peak type. Phase distributions showed 1 to 3 peaks interpreted as phase relations between the firings of the nerve fibres. Under certain phase relations, the rhythmic firing of alpha and gamma-motoneurons is further interpreted as an interaction of oscillatory firing neuronal subnetworks driving alpha and gamma-motoneurons. Following repetitive touch and pin-prick stimulation in- and outside the anal reflex area, the II distributions of alpha and gamma-motoneurons and of secondary spindle afferents assimilated partly or fully, while preserving their phase relations. This coordinated firing is interpreted as the oscillatory firing of alpha neuronal networks building up an external loop to the periphery via the gamma-loop. Upon touch, pin-prick, and anal reflex stimulation, and anal and bladder catheter pulling, the values and the number of the phase relations changed. Mostly two phase relations per oscillation cycle were observed. Two phase relations probably represent the physiologic case for the somatic nervous system. Only one phase relation was found when full synchronization of all units occurred. Three phase relations were found when the parasympathetic nervous system division interacted with the somatic one. Based on data obtained from brain-dead individuals it is discussed that the increased synchronization and instability in the number and the values of phase relations suggested pathologic functioning of the caudal functionally disconnected spinal cord in patients with spinal cord lesions: Oscillatory firing neuronal networks, which lost their specific properties, interacted more easily and unspecifically with other oscillatory firing networks. Further, it is discussed that physiologic tremor is caused by chance synchronization of oscillatory firing neuronal networks and therefore originates in the central nervous system (CNS). Since spinal oscillators build up external loops to the periphery, it is suggested that in patients with incomplete spinal cord lesions it should be possible to re-preformate oscillatory firing neuronal networks by a rhythm training, to reduce spasticity and to re-train useful movements, especially locomotion.
Gen Physiol Biophys 1996 Aug
PMID:External loops of human premotor spinal oscillators identified by simultaneous measurements of interspike intervals and phase relations. 893 99

This pilot study was designed to explore the tolerance and efficacy of lithium as an adjunctive prophylactic agent when added to maintenance antidepressant regimens following an episode of depression in an older medical-psychiatric population. In a randomized controlled trial, 27 depressed patients had either lithium carbonate or placebo added to their maintenance antidepressant (AD) regimen following an index episode of depression. Of 17 patients who received lithium carbonate, 76% (13/17) were unable to tolerate this agent for the duration of the study because of side effects (e.g., gastrointestinal disturbances or tremor). The four patients who tolerated lithium were monitored for relapse of depression over a 15-month follow-up period, and one relapsed (after a 49-week remission) whereas 60% (6/10) of the placebo patients relapsed. Cognitive functioning was stable in the lithium-treated patients who remained on therapy. The high rate of lithium intolerance in this study indicates that lithium dosing and serum levels must be conservatively managed in this clinical population.
Gen Hosp Psychiatry 1998 Mar
PMID:Lithium intolerance in a medical-psychiatric population. 958 92

A patient with central pontine myelinolysis (CPM) underwent neurological and mental status examination, as well as neuropsychological testing, during the acute stage of the disease. After correction of the hyponatremia, a gross change in his neuropsychiatric status was observed. The patient underwent extensive neurological, psychiatric, and neuropsychological testing during the acute phase of the disease and at follow-up 4 months later. All major neurological and neuropsychiatric symptoms present at onset were fully reversible. Neuropsychological examination revealed deficits in the domains of attention and concentration, short-term memory and memory consolidation, visual motor and fine motor speeds, and learning ability. Although improved, neuropsychological testing still revealed remarkable deficits at follow-up. We conclude that neuropsychological deficits can accompany CPM, and that these deficits do not necessarily diminish simultaneously with the radiological or clinical neurological findings but may persist for a longer period of time, or even become permanent. In his recovery the patient started to manifest new neurological symptoms consisting of a mild resting tremor of both hands and slow choreoathetotic movements of the trunk and the head, which we considered to be late neurological sequelae of CPM. The significance of CPM in the differential diagnosis of acute behavioral changes after correction of hyponatremia is stressed, even if correction is achieved slowly and carefully.
Gen Hosp Psychiatry
PMID:Neuropsychiatric and neuropsychological manifestations of central pontine myelinolysis. 1051 53

Locomotor activity (tremor, ataxia, immobility, epilepsy, and paralysis) in the taiep rat, which suffers from a myelin deficient disorder, has not been previously documented. This study used walking track analysis of footprints to analyze locomotor activity in the taiep rat in comparison to normal, age-matched controls. The results confirmed differences between normal and taiep rats in terms of stride length, step length, and stride width. In addition, we found significant interactions between age and condition for stride and step length. The results suggest that locomotor analysis is a sensitive indicator of myelin deficiency. The results are discussed in terms of the underlying myelin deficiency and possible treatment regimens.
J Gen Psychol 2000 Oct
PMID:Locomotor analysis of the taiep rat. 1111 3

The stress response is a series of coordinated physiological reactions increasing an organism's capacity to maintain homeostasis in the presence of threatening agents. This fundamental process is known to involve hormonal signaling to rapidly modulate key physiological functions in vertebrates, but data are lacking concerning neuroendocrine responses to stress in invertebrates. The present study examined circulating catecholamine (CA) responses to stress in oysters. Mechanical disturbances (consisting of shaking the animals) and temperature or salinity variations were applied to the animals because these three types of stressors are commonly encountered by oysters in aquaculture or in their natural habitat. Results show that both circulating noradrenaline (NA) and dopamine (DA) concentrations increased in response to stress. The catecholaminergic response to acute mechanical stressors was rapid (less than 5 min), transient (a return to basal CA levels was observed after 60-90 min), and reflected both the intensity and duration of the perturbation. In contrast, responses to temperature and salinity variations were long lasting (up to 72 h). CA concentrations varied from 1.61 +/- 0.30 ng NA/ml and 0.41 +/- 0.05 ng DA/ml to maximal values of 22.07 +/- 0.97 ng NA/ml and 2.24 +/- 0.19 ng DA/ml. Such CA concentrations are known to induce physiological responses in bivalves, suggesting that stress-induced NA and DA changes exert a regulatory function in oysters.
Gen Comp Endocrinol 2001 May
PMID:Stress-induced catecholamine changes in the hemolymph of the oyster Crassostrea gigas. 1131 23

The taiep (tremor, ataxia, immobility, epilepsy, and paralysis) myelin mutant displays a number of locomotor deficits. Taiep rat gait is characterized by shorter stride and step lengths as well as by larger stride widths. Thirty-day-old taiep mutants were placed under a regimen of daily hormone injections for 60 days. Animals in Condition 1 received melatonin, those in Condition 2 received pregnenolone sulfate, and those in a third control condition received injections of saline. Following the injections, each taiep mutant's gait was analyzed. The animals that received melatonin and pregnenolone displayed significantly larger stride and step lengths than did the controls. In addition, the animals that received hormones displayed shorter stride widths than did the controls. These experimental effects are consistent with a normalization of gait. Possible cellular mechanisms of this behavioral effect are discussed.
J Gen Psychol 2002 Jul
PMID:Behavioral effects of chronic melatonin and pregnenolone injections in a myelin mutant rat (taiep). 1222 8

An industrially applied rifamycin B-producing strain, Amycolatopsis mediterranei XC 1-02, was used for further screening. A special mutation and screening procedure was adopted to select a strain, which can alleviate the inhibition caused by both aromatic amino acid and p-hydroxybenzoic acid in the pathway of rifamycin B biosynthesis as well as enhance the production of propionate, one of the precursors of rifamycin B biosynthesis. By the above methods, a strain A. mediterranei XC 9-25 was obtained, and its rifamycin B productivity in shaking flask reaches 10 g/L, which is 2.38 times higher than that of the ancestral strain XC 1-02. The productivity of rifamycin B fed-batch fermentation in 60000 L fermentor with A. mediterranei XC 9-25 reached 19.11 g/L.
J Gen Appl Microbiol 2002 Dec
PMID:Improvement of industry-applied rifamycin B-producing strain, Amycolatopsis mediterranei, by rational screening. 1268 71

Members of the corticotropin-releasing factor (CRF) family of peptides play pivotal roles in the regulation of neuroendocrine, autonomic, and behavioral responses to physical and emotional stress. In amphibian tadpoles, CRF-like peptides stimulate both thyroid and interrenal (adrenal) hormone secretion, and can thereby modulate the rate of metamorphosis. To better understand the regulation of expression and actions of CRF in amphibians we developed a homologous radioimmunoassay (RIA) for Xenopus laevis CRF (xCRF). We validated this RIA and tissue extraction procedure for the measurement of brain CRF content in tadpoles and juveniles. We show that the CRF-binding protein, which is highly expressed in X. laevis brain, is largely removed by acid extraction and does not interfere in the RIA. We analyzed CRF peptide content in five microdissected brain regions in prometamorphic tadpoles and juveniles. CRF was detected throughout the brain, consistent with its role as both a hypophysiotropin and a neurotransmitter/neuromodulator. CRF content was highest in the region of the preoptic area (POa) and increased in all brain regions after metamorphosis. Exposure to 4h of handling/shaking stress resulted in increased CRF peptide content in the POa in juvenile frogs. Injections of xCRF into prometamorphic tadpoles increased whole body corticosterone and thyroxine content, thus supporting findings in other anuran species that this peptide functions as both a corticotropin- and a thyrotropin (TSH)-releasing factor. Furthermore, treatment of cultured tadpole pituitaries with xCRF (100nM for 24h) resulted in increased medium content, but decreased pituitary content of TSHbeta-immunoreactivity. Our results support the view that CRF functions as a stress neuropeptide in X. laevis as in other vertebrates. Furthermore, we provide evidence for a dual hypophysiotropic action of CRF on the thyroid and interrenal axes in X. laevis as has been shown previously in other amphibian species.
Gen Comp Endocrinol 2004 Jul
PMID:Expression and hypophysiotropic actions of corticotropin-releasing factor in Xenopus laevis. 1520 Oct 65

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