Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An animal model of alcohol dependence is being produced by selecting mice for differences in severity of ethanol withdrawal seizures. Replicate lines of high-dependence (HA), low-dependence (LA), and control (CA) mice are being developed by within-family selection. After seven generations both (replicate) HA and LA lines have separated significantly. Some of the difference between the replicate pairs of HA and LA in the early generations was due to differences in ethanol consumption. This difference in consumption may be attributable to a difference in metabolic rate or activity level rather than to a difference in ethanol preference. Females are more susceptible to seizures than males; this appears to be due partly to their higher consumption of ethanol during treatment.
 ...
PMID:Seven generations of genetic selection for ethanol dependence in mice. 161 64

Rats prenatally exposed to alcohol (0%, 17.5%, or 35% ethanol-derived calories) were tested for audiogenic seizure susceptibility on one of postnatal days 18 to 23, then retested 5 days later. Prenatal alcohol exposure did not influence audiogenic seizure susceptibility or severity. There was, however, a significant increase in seizure incidence on the retest day for all groups, suggesting a priming effect. Auditory brainstem response (ABR) data suggested that prenatal alcohol exposure and acoustic trauma (i.e., exposure to an alarm bell used for eliciting audiogenic seizures) induced measurable sensorineural hearing loss, and that the combined exposure to alcohol and acoustic trauma interacted additively to produce greater hearing loss than either alone.
Alcohol Clin Exp Res 1992 Jun
PMID:Audiogenic seizure susceptibility and auditory brainstem responses in rats prenatally exposed to alcohol. 821 37

In this paper, we present examples of some of the several behaviors which have been taken to indicate the reinforcing efficacy of drugs, including ethanol. Efforts to identify the genetic determinants of these behaviors have employed diverse pharmacogenetic methods. For example, we have used selective breeding to develop mice selected for severe or attenuated ethanol withdrawal and have found that Withdrawal Seizure Prone mice show a greater conditioned preference for ethanol-associated locations than the selected Withdrawal Seizure Resistant line. Similarly, HOT mice, selected for insensitivity to ethanol-induced hypothermia, had greater conditioned place preference after ethanol training than COLD mice, selected for ethanol hypothermic sensitivity. We have also developed selected mouse lines responsive or unresponsive to ethanol-stimulated locomotor activity. These FAST and SLOW lines develop sensitization rather than tolerance to ethanol-induced activity. Using inbred strains of mice, others had shown that strains differed in preference for drinking ethanol solutions. We found that these strains also differed in acceptance of ethanol. Single-gene techniques have been used to show that preference drinking is significantly altered in mutant rodent strains lacking hypothalamic vasopressin, or with nephrogenic diabetes insipidus. In a specific panel of Recombinant Inbred mouse strains, we found that a single gene appeared to control a significant portion of the variance in preference drinking. These examples show that traits putatively related to drug reinforcement show substantial genetic control. Specifically, single-gene methods show promise of identification and mapping of genes related to drug reinforcement.
 ...
PMID:Genetic determinants of ethanol reinforcement. 163 89

We have investigated the pharmacological basis of CNS excitation that occurs in association with general anaesthesia in mice. Propofol produced sustained clonic movements during anaesthesia. Methohexitone produced intermittent non-rhythmic jerking during anaesthesia. Ethanol and pentobarbitone produced anaesthesia without associated clonic movements. Doses of all anaesthetic drugs were equipotent. Surface EEG recordings showed paroxysmal discharges consistent with interictal manifestations of cortical seizures with methohexitone or propofol, but not with ethanol or pentobarbitone. Strychnine, a glycine antagonist without effects on the cerebral cortex, and bicuculline, a GABAA antagonist with effects on the cerebral cortex, were used in doses that were equipotent-0.5 log units less than the ED10 for clonic convulsions. Strychnine potentiated both excitatory behaviour and EEG paroxysmal discharges when given with methohexitone or propofol, but not with ethanol or pentobarbitone. Bicuculline did not affect either behaviour or EEG with any of the anaesthetic drugs. Our data show that methohexitone and propofol produced CNS excitation, while pentobarbitone and ethanol did not. We propose that the pharmacological basis of this excitation may be glycine antagonism occurring in subcortical structures.
 ...
PMID:Does glycine antagonism underlie the excitatory effects of methohexitone and propofol? 164 44

The abolition of seizures using a single antiepileptic agent can be expected in more than 80% of patients, although not necessarily with the first drug tried. The remainder often receive polypharmacy, and current evidence suggests that perhaps only around 10% of these benefit significantly in terms of improved seizure control. Many more experience complicated drug interactions. Carbamazepine, phenytoin, phenobarbital, and primidone (metabolized in part to phenobarbital) all induce the synthesis of hepatic monooxygenase and conjugating enzymes. This will result in an acceleration in the metabolism of other lipid-soluble drugs with likely attenuation of their pharmacological effects. Valproate, on the other hand, is a minor enzyme inhibitor. Pharmacokinetic interactions are almost invariable when more than one antiepileptic drug is coprescribed. The extent and direction of interactions with combinations of these drugs are varied and unpredictable. Discontinuation of an enzyme inducer or inhibitor will influence the concentrations of the remaining drug(s). Pharmacodynamic interactions also cause problems in epileptic patients. A number of commonly prescribed psychoactive drugs, such as tricyclic antidepressants and neuroleptics, can worsen seizure control by reducing the convulsion threshold. In addition, there seems little doubt that ethanol abuse and withdrawal can precipitate seizures in susceptible patients. Antiepileptic polypharmacy is more likely to impair cognitive function than the same drugs used singly. In addition, the more antiepileptic drugs received by a patient in the first trimester of pregnancy, the higher the risk of teratogenesis in the exposed infant. Drug interactions prolong and complicate the process of new drug assessment, particularly when introduced in treated patients with refractory epilepsy. The candidate antiepileptic drug may alter the concentration of concomitant therapy, or its own breakdown may be influenced by coprescribed enzyme inducers or inhibitors. Even if the new drug is excreted unchanged by the kidney, unexpected interactions can be uncovered. Pharmacodynamic interactions need not always be detrimental. Currently, there is no rational approach to the treatment of intractable epilepsy. As more new drugs with single mechanisms of action become available, the potential exists for combining these synergistically. This approach may revolutionize the pharmacological management of the epileptic patient in the 21st century.
 ...
PMID:Drug interactions in epilepsy. 164 52

Chronic exposure to ethanol is associated with the development of tolerance to the acute effects of ethanol and a withdrawal syndrome characterized by anxiety and seizure susceptibility. In the present study we examined the ability of flumazenil (Ro15-1788), a benzodiazepine receptor antagonist, to reverse neuronal and behavioral manifestations of ethanol tolerance and dependence. A single injection of flumazenil (10 mg/kg, 14 hr before withdrawal) to mice administered a liquid diet containing ethanol for 10 days, reduced seizure severity during withdrawal from ethanol. Acute tolerance to ethanol-induced hypothermia was not sensitive to flumazenil treatment, but tolerance and diazepam-induced cross-tolerance to the ataxic effects of ethanol were reversed by a single injection of flumazenil given 2 to 26 hr before evaluation of tolerance. At a biochemical level, the ability of benzodiazepine inverse agonists (e.g., Ro15-4513) to reduce the activity of gamma-aminobutyric acid (GABA) receptor-operated chloride channels may represent a neuronal manifestation of ethanol dependence (Buck and Harris, 1990). Flumazenil treatment of ethanol-dependent mice 14 hr before isolation of brain membrane vesicles partially reversed the augmentation of Ro15-4513 inhibition of muscimol-stimulated 36Cl- uptake in vitro. These results demonstrate that brief occupation of benzodiazepine receptors by an antagonist may reset the cellular mechanisms responsible for the development of ethanol tolerance and dependence, and support the hypothesis that increased sensitivity to benzodiazepine inverse agonists is involved in the development of ethanol dependence.
 ...
PMID:Reversal of alcohol dependence and tolerance by a single administration of flumazenil. 164 33

Benzodiazepine (BZ) effects include anxiolyis, sedation, seizure protection, and muscle relaxation; the mechanisms underlying these various effects are not understood. We have recently used the rotarod test in conjunction with selective breeding techniques to develop lines of mice which are diazepam-sensitive (DS) and diazepam-resistant (DR). We review the general methods of selective breeding, along with a description of the DS/DR selection study, and then describe a variety of behavioral and neurochemical studies which have been conducted in an attempt to characterize these mice. We have investigated the effects of other sedative drugs believed to interact with the BZ receptor, including ethanol, pentobarbital, and phenobarbital. We have also tested these mice for seizure threshold and open-field activity. DS and DR mice do not differ in diazepam-induced seizure protection, suggesting that different mechanisms underlie rotarod performance and the anti-convulsant effect. These results provide evidence to support the search for nonsedating anti-convulsants. To determine the neurochemical basis for observed differences, BZ receptor density and chloride flux have been measured. We discuss the interaction between behavioral and neurochemical approaches, and describe a conceptual framework to guide future studies with these unique new animals.
 ...
PMID:Behavioral and neurochemical studies in diazepam-sensitive and -resistant mice. 164 11

Long-sleep (LS) and short-sleep (SS) mice which were selectively bred for sensitivity to the sedative-hypnotic effects of ethanol have been used extensively in the examination of sensitivity to ethanol as well as to other CNS depressants. Understanding the relationship between sensitivity to ethanol and other depressants using LS and SS mice has been limited to a two mouse line comparison because these mice do not exist as replicate lines. To circumvent this problem, DeFries et al. have bred LSXSS recombinant inbred strains (LSXSS RIs) from a cross of LS and SS mice. These mice are being characterized on their responses to a variety of CNS depressants and agents that interact with the GABAergic system. Preliminary results are presented here on the sensitivity of these LSXSS RIs to pentobarbital, phenobarbital, and flurazepam as measured by sleep times. Additionally, analyses of seizure susceptibility to the GABAergic antagonist, bicuculline, in 24 LSXSS RIs indicate that there is no significant relationship between this measure of GABAergic function and sensitivity to ethanol as measured by the sleep-time response. These results are presented in the context of questions that can be resolved using RIs in drug-abuse research.
 ...
PMID:The use of recombinant inbred strains to study mechanisms of drug action. 164 13

Withdrawal from both acute and chronic ethanol (EtOH) exposure is associated with increased neural excitability and increased activity of the hypothalamic-pituitary-adrenal axis. There is some evidence that glucocorticoids are necessary for EtOH withdrawal seizure expression. Lines of mice that were selected for severe (WSP) and minimal (WSR) EtOH withdrawal (as estimated from handling-induced convulsion scores) have been shown to differ in their stress response following an acute dose of EtOH. In this study we provide evidence that these lines of mice also differ in their sensitivity to the excitatory effects of glucocorticoids. EtOH withdrawal seizures of WSP mice were significantly increased by chronic and acute corticosterone treatment, whereas those of the WSR mice were unaffected. Neural excitability was decreased in the WSP mice when aminoglutethimide, a glucocorticoid synthesis blocker, was administered. Thus, it appears that genetic differences in EtOH withdrawal seizure severity may be due, in part, to differences in sensitivity to the excitatory effects of glucocorticoids.
Alcohol Clin Exp Res 1991 Jun
PMID:Differential modulation by the stress axis of ethanol withdrawal seizure expression in WSP and WSR mice. 165 18

Chronic ethanol treatment is known to alter the function of the gamma-aminobutyric acidA (GABAA) benzodiazepine receptor complex. To determine if genetic differences in development of ethanol dependence are related to expression of GABAA receptor subunits, we measured whole brain levels of mRNA for the alpha 1, alpha 3, alpha 6, gamma 2s, gamma 2L, and gamma 3 receptor subunits in withdrawal seizure-prone and -resistant (WSP and WSR, respectively) mice fed an ethanol-containing liquid diet or a control diet. Brain poly(A)+ RNA was converted to cDNA and amplified by the polymerase chain reaction using primers conserved among GABAA receptor subunits. Quantification was carried out by densitometric analysis of Southern blots generated using subunit-specific probes. Chronic ethanol treatment decreased the content of alpha 1 mRNA in WSP but not WSR mice and decreased the content of alpha 6 mRNA in WSR but not WSP mice. The content of gamma 3 mRNA was increased by chronic ethanol in both lines. In untreated mice, the WSP line had lower levels of alpha 3 and alpha 6 mRNA than the WSR line. Thus, a decrease in the content of alpha 1 mRNA is most clearly linked with development of withdrawal signs, although the amounts of alpha 6 and alpha 3 may also be important in the genetic differences between WSP and WSR mice. In contrast, levels of mRNA for gamma 2S and gamma 2L subunits do not appear to be altered in ethanol dependence.
 ...
PMID:Chronic ethanol treatment alters brain levels of gamma-aminobutyric acidA receptor subunit mRNAs: relationship to genetic differences in ethanol withdrawal seizure severity. 165 94


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>