Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004134 (ataxia)
 15,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Male CD-1 mice (age 6 weeks, 6 months, 1 and 2 years) received single 2-mg/kg i.p. doses of clonazepam. Plasma and cortex clonazepam concentrations, rotarod ataxia and in vivo benzodiazepine receptor occupancy were measured at multiple times up to 14 hr after dosage. Elimination of clonazepam from plasma and cortex became slower with age, but cortex concentrations always exceeded those in plasma. The mean ratio was 1.82, and was not influenced by age. Rotarod ataxia was quantitatively greater and of longer duration in aging animals. This was not explained entirely by kinetic changes, as ataxia at any given cortex clonazepam concentration or degree of receptor occupancy was greater in 1-year-old animals than in those age 6 weeks or 6 months. In a second study, 6-week and 1-year-old animals were tested at a fixed time (1 hr) after variable doses of clonazepam (0.01-2.0 mg/kg); findings were consistent with results from the fixed-dose study. In vitro studies evaluated benzodiazepine receptor binding, chloride channel binding and muscimol-stimulated chloride uptake in cortical membrane preparations from animals of the four age groups. Binding affinity and number of binding sites were not influenced by age, or was gamma-aminobutyric acid-dependent muscimol-stimulated chloride uptake (either with or without addition of lorazepam) significantly related to age. Thus, increased overall sensitivity of aging animals to the central depressant effects of clonazepam is evident in the described model.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Kinetic and dynamic components of increased benzodiazepine sensitivity in aging animals. 216 48

The gamma-aminobutyric acid (GABA) receptor-operated chloride channel complex was evaluated in mice selected for differential sensitivity to the ataxic effects of diazepam (diazepam-sensitive (DS) and diazepam-resistant (DR) lines). The ataxic effects of several drugs purported to produce some of their actions through the benzodiazepine-GABA receptor complex were examined using the rotarod test. The duration of impairment produced by diazepam, ethanol, 4,5,6,7-tetrahydroisoxazol[5,4-C]pyridine-3-ol (THIP) and phenobarbital was greater in the diazepam-sensitive than in the diazepam-resistant mice. In contrast, pentobarbital produced an equivalent duration of ataxia in the two lines. Muscimol-stimulated 36Cl- influx and the binding of [35S]t-butylbicyclophosphorothionate (TBPS) and [3H]flunitrazepam were measured using isolated brain membrane vesicles (microsacs). Depolarization-dependent 45Ca2+ uptake was measured in whole brain synaptosomes. Muscimol was a more potent stimulator of 36Cl- flux in the DS compared to the DR mice, although no difference between the lines was found in muscimol-stimulation of [3H]flunitrazepam binding. Flunitrazepam augmented the muscimol-stimulated 36Cl- uptake in the DS but not in the DR mice. However, no differences between the lines of mice were found in either density or affinity of [3H]flunitrazepam binding sites. Similarly, no differences in either the density or affinity of [35S]TBPS binding sites was found. Ethanol (10-45 mM) potentiated the muscimol-stimulation of 36Cl- in DS, with no effect in DR mice. However, ethanol inhibition of [35S]TBPS binding was equivalent in the two lines of mice. Pentobarbital produced an equal potentiation of the muscimol-stimulated 36Cl- flux in the two lines, but phenobarbital potentiated the muscimol-induced 36Cl- influx slightly more in DS mice.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Genetic selection for benzodiazepine ataxia produces functional changes in the gamma-aminobutyric acid receptor chloride channel complex. 245 24

Several lines of evidence suggest that dietary choline intake influences the metabolism of membrane phospholipids with possible effects on GABAergic neurotransmission. Based on these findings, the present experiments determined whether chronic choline supplementation or deficiency alters GABAergic function at the level of the gamma-aminobutyric acid (GABA)/benzodiazepine-chloride channel complex. To accomplish this, mice were fed diets containing 0% (deficient), 0.2% (basal) or 2.0% (supplemented) choline chloride for 28 days, and behavior, ligand binding at several sites in the complex and chloride uptake were determined in various brain regions. For both rotarod ataxia and open-field activity, mice receiving choline supplementation had a decreased response to clonazepam compared to those receiving basal and deficient diets. Choline supplementation significantly increased the in vivo binding of [3H]Ro15-1788 to cortex and cerebellum by 19% and 24%, respectively, and in vitro studies in cortical membranes indicated a significant 36% increase in the maximal number of [3H]flunitrazepam binding sites without a change in affinity, as compared to basal controls. In contrast, [3H]Ro15-1788 binding in vivo in all brain regions from mice fed the deficient diet decreased significantly to 20 to 58% of control values. Dietary choline intake did not alter GABA levels in brain, the binding of [35S]t-butylbicyclophosphorothionate to the chloride channel or the coupling between GABA and either the t-butylbicyclophosphorothionate site or the benzodiazepine site. However, the function of the GABAA receptor, determined by muscimol-stimulated chloride uptake into cortical synaptoneurosomes, was increased significantly in tissue from the supplemented group as compared to both control and deficient groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dietary choline intake modulates benzodiazepine receptor binding and gamma-aminobutyric acidA receptor function in mouse brain. 253 22

Tolerance occurs to a number of the pharmacodynamic effects of benzodiazepines. To assess pharmacokinetic and neurochemical aspects of tolerance, lorazepam (LRZ) was administered chronically to mice via implantable osmotic pumps and rotarod ataxia, plasma and brain LRZ concentrations, benzodiazepine receptor binding in vivo and in vitro, chloride channel binding and muscimol-stimulated chloride uptake were examined in various brain regions over a 14-day period. Behavioral tolerance, indicated by diminished rotarod ataxia, developed at all doses examined (1, 2, 4 and 10 mg/kg/day), with little change occurring before day 4. The greatest decrease in rotarod ataxia occurred between days 4 and 7. Plasma and brain LRZ concentrations were proportional to dose and were constant over time at each dose, indicating that tolerance was not pharmacokinetic. Benzodiazepine receptor binding as determined by the specific uptake of [3H]Ro15-1788 decreased in cortex, hypothalamus and hippocampus primarily between days 4 and 7, with an approximately 50% decrement in each region by day 7. Receptor binding and rotarod ataxia in cortex were highly correlated at each dose. Apparent affinity in vivo at the receptor was unchanged in cortex, indicating that altered ligand uptake was due to decreased receptor number. Similar results were observed in membrane preparations. There was a small, nonsignificant decrease in chloride channel binding at day 7 compared to day 1. Muscimol-stimulated chloride uptake into cortical synaptoneurosomes was decreased at day 7 compared to day 1. Thus, downregulation of benzodiazepine receptor binding and of gamma-aminobutyric acidA receptor function is closely associated with behavioral tolerance to benzodiazepines.
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PMID:Chronic benzodiazepine administration. I. Tolerance is associated with benzodiazepine receptor downregulation and decreased gamma-aminobutyric acidA receptor function. 283 60

Aromatic and heterocyclic esters of 1-methyl-4-piperidinol and 1,4-dimethyl-4-piperidinol and aromatic esters of (dialkylamino)alkanols were prepared and evaluated for antiepileptic activity by the maximal electroshock seizure (MES) and subcutaneous pentylenetetrazole seizure threshold (scMet) assays and for minimal central neurotoxicity by the rotorod ataxia test. The most potent compound, namely the 2-phenylbenzoate (57) of 3-(diethylamino)propanol, was slightly more potent than diphenylhydantoin in the MES assay, while the 2-phenylbenzoate (24) of 1-methyl-4-piperidinol and the 2-phenylbenzoate (56) of (diethylamino)ethanol displayed activity comparable to that of diphenylhydantoin. The 2-phenethylbenzoate ester (6) of 1-methyl-4-piperidinol exhibited one-third the activity of diphenylhydantoin. The 2,4,5-trimethylbenzoate 40 and 2,4,6-trimethylbenzoate 41 of 1-methyl-4-pieridinol were even less potent, but did display activity in the phenobarbital-methsuximide range. Certain compounds interact with sites associated with the GABA receptor-chloride channel complex, but their potencies as anticonvulsant agents do not correlate with interaction at sites on the channel complex. Certain analogues antagonize binding of a batrachotoxin analogue to sodium channel sites, a property indicative of local anesthetic activity. There are structural similarities between 2-phenylbenzoates 57, 56, and 24 and diphenylhydantoin, and the latter anticonvulsant also antagonizes binding of the batrachotoxin analogue.
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PMID:Anticonvulsant activity of piperidinol and (dialkylamino)alkanol esters. 301 69

1. The discovery that the avermectins and cyclodienes affected the chloride channels of excitable membranes generated intense research interest among academic and industrial scientists. 2. The results of biochemical and neurophysiological studies indicate that the gamma-aminobutyric acid (GABA)-gated chloride channel is an important, if not the primary site of action for these compounds. 3. The action of insecticides on the functional properties of the GABA receptor differs by structural class. The cyclodienes block the chloride ion channel and the avermectins activate it. 4. Blockage of the GABA-gated chloride channel by cyclodienes reduces neuronal inhibition, which leads to hyper-excitation of the central nervous system, convulsions, and death. For avermectins, activation of the channel suppresses neuronal activity, resulting in ataxia, paralysis and death. Although actions on the GABA-gated chloride channel can explain many of the effects of these compounds, there is evidence supporting the participation of other ligand- and voltage-gated chloride channels in the overall intoxication process. This consideration is especially true for the avermectins. 5. Several structural series of experimental insecticides have been synthesized which possess a blocking action on the GABA-gated chloride channel similar to that of the cyclodienes. 6. Resistance to cyclodienes usually occurs through an altered target site, and extends to all experimental compounds that block chloride channels. However, the resistance does not afford protection against the avermectins. 7. The continued search for new insecticides directed against chloride channels may lead to compounds with less environmental impact and greater selectivity than that of the cyclodienes. Given the pre-selection for resistance by the cyclodienes, new compounds with a similar mode of action must be used judiciously in order to suppress or delay the re-emergence of widespread resistance.
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PMID:Toxicology, mode of action and target site-mediated resistance to insecticides acting on chloride channels. 790 8

Recent advances in the field of molecular myology have provided significant insight into the pathological mechanisms underlying a variety of neuromuscular disorders. Genetic abnormalities can now be linked to primary and secondary pathophysiological changes in muscle fibres which compromise structural, metabolic, regulatory or contractile mechanisms. Ion channel myopathies such as paramyotonia congenita, hyper- and hypokalaemic periodic paralysis, myotonia congenita, episodic ataxia and malignant hyperthermia were established as linked to mutations in genes encoding the sodium channel, dihydropyridine receptor, chloride channel, potassium channel and the ryanodine receptor calcium release channel, respectively. Metabolic disorders affecting skeletal muscle were found to be due to deficiencies in a variety of enzymes. Identification of defects in components belonging to the gigantic dystrophin-glycoprotein complex led to the discovery of the molecular pathogenesis of Duchenne muscular dystrophy and related disorders. Based on these molecular findings, it is now feasible to design and evaluate new techniques such as gene and myoblast transfer therapy in order to replace defective components in diseased muscle fibres.
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PMID:[Molecular pathogenesis of muscular diseases]. 903 37

Ganaxolone (CCD 1042) is a 3beta-methyl-substituted analog of the endogenous neuroactive steroid 3alpha-hydroxy-5alpha-pregnan-20-one. Ganaxolone inhibited binding of the gamma-aminobutyric acid (GABA)A receptor-chloride channel ligand t-[35S]butylbicyclophosphorothionate (IC50 of 80 nM) and enhanced binding of the benzodiazepine site ligand [3H]flunitrazepam (EC50 of 125 nM) and the GABA site ligand [3H]muscimol (EC50 of 86 nM), consistent with activity as a positive allosteric modulator of the GABA(A) receptor. Electrophysiological recordings showed that, whereas nanomolar concentrations of ganaxolone potentiated GABA-evoked chloride currents in Xenopus oocytes expressing the human GABA(A) receptor subunits alpha1beta1gamma2L, alpha2beta1gamma2L or alpha3beta1gamma2L, direct activation of chloride flux occurred to a limited extent only at micromolar concentrations. Ganaxolone was effective in nontoxic doses against clonic convulsions induced by s.c. pentylenetetrazol administration in mice and rats (ED50 values of 4.3 and 7.8 mg/kg i.p., respectively). Ganaxolone also exhibited potent anticonvulsant activity against seizures induced by s.c. bicuculline (ED50 of 4.6 mg/kg i.p.), i.p. TBPS (ED50 of 11.7 mg/kg i.p.) and i.p. aminophylline (ED50 of 11.5 mg/kg i.p.) in mice. Although ganaxolone effectively blocked tonic seizures induced by maximal electroshock in mice (ED50 of 29.7 mg/kg i.p.), it did so only at doses that produced ataxia on the Rotorod (TD50 of 33.4 mg/kg i.p.). Conversely, ganaxolone was a potent anticonvulsant against fully kindled stage 5 seizures induced by corneal kindling in rats (ED50 of 4.5 mg/kg i.p.), producing these effects at doses well below those that resulted in ataxia (TD50 of 14.2 mg/kg i.p.). The seizure threshold, as determined by an increase in the dose of i.v. infused pentylenetetrazol required to induce clonus, was also significantly elevated by nontoxic doses of ganaxolone in mice. In summary, these data indicate that ganaxolone is a high-affinity, stereoselective, positive allosteric modulator of the GABA(A) receptor complex that exhibits potent anticonvulsant activity across a range of animal procedures. The profile of anticonvulsant activity obtained for ganaxolone supports clinical evaluation of this drug as an antiepileptic therapy with potential utility in the treatment of generalized absence seizures as well as simple and complex partial seizures.
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PMID:Characterization of the anticonvulsant properties of ganaxolone (CCD 1042; 3alpha-hydroxy-3beta-methyl-5alpha-pregnan-20-one), a selective, high-affinity, steroid modulator of the gamma-aminobutyric acid(A) receptor. 906 15

Since 1990, many mutations, in genes encoding ion channels have been discovered to cause disorders characterized by hyper- or hypoexcitability of skeletal muscle or the central nervous system (CNS): i) mutations in the muscle chloride channel gene lead to a loss or change of function of the channels and cause an abnormally low total chloride conductance resulting in hyperexcitability of the muscle fiber membrane in the dominant and recessive form of myotonia congenita; ii) numerous dominant point mutations in the gene encoding the muscle sodium channel alpha-subunit cause incomplete sodium channel inactivation. Dependent on the inactivation parameter altered and the degree of the gain of function induced by a given mutation, the muscle episodically becomes hyper- or hypoexcitable (i.e. stiff or weak), particularly in response to elevated serum potassium (potassium-aggravated myotonia, hyperkalemic periodic paralysis) or cold environment (paramyotonia congenita); iii) dominant point mutations in the gene coding for the muscle L-type calcium channel alpha(1)-subunit can cause episodes of muscle inexcitability (i.e. weakness), particularly in response to lowered serum potassium (hypokalemic periodic paralysis); despite the recently discovered etiology of the disease, the pathogenesis of the weakness is still unknown; iv) dominant mutations in a voltage-gated potassium channel expressed in the CNS cause episodic ataxia type 1 presumably by antagonizing repolarization of the cell membrane; v) dominant mutations in a neuronal calcium channel alpha-subunit may cause either episodic ataxia type II or familial hemiplegic migraine by a so far unknown pathomechanism; vi) the first mutation in an ion channel associated with an inherited form of epilepsy, nocturnal frontal lobe epilepsy, was found in the alpha(4)-subunit of a neuronal nicotinic acetylcholine receptor.
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PMID:[Ion channel diseases in neurology]. 948 Feb 90

Gamma-Aminobutyric acid (GABA) is the major inhibitory neurotransmitter in the mammalian Central Nervous System (CNS). GABA participates in the regulation of neuronal excitability through interaction with specific membrane proteins (the GABAA receptors). The binding of GABA to these postsynaptic receptors, results in an opening of a chloride channel integrated in the receptor which allows the entry of Cl- and consequently leads to hyperpolarization of the recipient cell. The action of GABA is allosterically modulated by a wide variety of chemical entities which interact with distinct binding sites at the GABAA receptor complex. One of the most thoroughly investigated modulatory site is the benzodiazepine binding site. The benzodiazepines constitute a well-known class of therapeutics displaying hypnotic, anxiolytic and anticonvulsant effects. Their usefulness, however, is limited by a broad range of side effects comprising sedation, ataxia, amnesia, alcohol and barbiturate potentiation, tolerance development and abuse potential. Consequently, there has been an intensive search for modulatory agents with an improved profile, and a diversity of chemical entities distinct from the benzodiazepines, but with GABA modulatory effects have been identified. The existence of endogenous ligands for the GABAA receptor complex beside GABA has often been described, but their role in the regulation of GABA action is still a matter of controversy. The progress of molecular biology during the last decade has contributed enormously to the understanding of benzodiazepine receptor pharmacology. A total of 14 GABAA receptor subunits have been cloned from mammalian brain and have been expressed/co-expressed in stable cell lines. These transfected cells constitute an important tool in the characterization of subtype selective ligands. In spite of the rapidly expanding knowledge of the molecular and pharmacological mechanisms involved in GABA/benzodiazepine related CNS disorders, the identification of clinically selective acting drugs is still to come.
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PMID:Ligands for the benzodiazepine binding site--a survey. 1021 98


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