Effects of ethanol, barbital, and lorazepam on brain monoamines in rat lines selectively outbred for differential sensitivity to ethanol

The acute effects of ethanol, barbital, and lorazepam on the synthesis and metabolism of brain monoamines were studied in the AT (Alcohol Tolerant) and ANT (Alcohol Nontolerant) lines of rats, which have been selected for differential motor impairment after ethanol administration. The ethanol-sensitive ANT rats are also more sensitive than the ethanol-insensitive AT rats to the motor impairment caused by barbital and lorazepam. Ethanol increased, whereas barbital and lorazepam decreased, the synthesis of catecholamines in several regions of the brain. Ethanol did not affect the formation of DOPAC, whereas barbital and lorazepam reduced it. Similarly, the accumulation of 5-HTP was increased after administration of ethanol, but was decreased after administration of barbital or lorazepam. Ethanol, barbital and lorazepam decreased the formation of 5-HIAA. The rat lines did not differ in any of these responses. Some differences could, however, be demonstrated between the AT and ANT rats in the effects of the three drugs on the levels of the brain monoamines. Although the importance of these differences in the differential sensitivity to these drugs between the two lines is difficult to determine, the role of central monoaminergic mechanisms cannot be excluded. These findings also suggest that the motor impairment induced by ethanol, barbiturates, and benzodiazepines is probably not primarily based on the monoaminergic systems.     

GABA turnover in the brain of rat lines developed for differential ethanol-induced motor impairment

The role of GABAergic neurons in the differential sensitivity to ethanol between the AT (Alcohol Tolerant) and ANT (Alcohol Nontolerant) rat lines developed for low and high degree of motor impairment from ethanol, was studied by comparing the effect of ethanol (2 or 4 g/kg, IP) on GABA turnover in different regions of the brain in these rat lines. GABA turnover was estimated from the accumulation of GABA after inhibition of GABA aminotransferase with aminooxyacetic acid (AOAA, 50 mg/kg, IP) given 10 min after administration of ethanol. The rats were killed two hours after the AOAA treatment with focused microwaves. The concentrations of GABA, aspartate, glutamate, glutamine and taurine were analyzed with HPLC. The saline-treated ANT rats were found to have a higher concentration of GABA in the striatum and a higher rate of GABA accumulation in the cerebellum than the AT rats. Ethanol suppressed the accumulation of GABA in both lines, but the suppression was significantly greater in the AT rats than in the ANT rats. In specific regions, this line difference was significant in the cerebral cortex and cerebellum with the higher ethanol dose. No line differences were found in the brain or tail blood ethanol concentration. AOAA increased the concentration of glutamine, decreased that of aspartate and glutamate, and did not modify that of taurine. The AOAA-induced changes in the concentrations of these amino acids were, however, minor relative to those found in the concentrations of GABA. The results that GABAergic mechanisms are involved in the differential sensitivity to the motor-impairing effects of ethanol between the AT and ANT rats.     

Effects of ethanol on the accumbal output of dopamine,GABA and glutamate in alcohol-tolerant and alcohol-nontolerant rats

Effects of ethanol on the accumbal extracellular concentrations of dopamine, as well as of the amino acid transmitters gamma-amino butyric acid (GABA), glutamate and taurine, were studied in the alcohol-insensitive (alcohol-tolerant, AT) and alcohol-sensitive (alcohol-nontolerant, ANT) rats selected for low and high sensitivity to ethanol-induced motor impairment. Ethanol (2 or 3 g/kg ip) enhanced the output of dopamine and its metabolites in freely moving rats of both lines as measured by in vivo microdialysis. The effect of ethanol on the metabolites of dopamine tended to be stronger in the ANT rats. The smaller dose of ethanol decreased the output of GABA only in the AT rats, whereas the larger dose of ethanol decreased the output of GABA in rats of both lines to a similar degree. Ethanol at the dose of 2 g/kg slightly, but statistically, significantly decreased the output of glutamate in rats of both lines, but the larger dose of ethanol decreased the output of glutamate only in the AT rats. Ethanol at the dose of 2 g/kg induced a small transient increase in the output of taurine within 2 h after its administration in rats of both lines, but the larger dose of ethanol was without significant effect. These results confirm the previous findings that ethanol suppresses the release of GABA more in the AT than ANT rats. Thus, among the neurotransmitter systems we studied, the effects of ethanol might be the most relevant on GABAergic transmission regarding the sensitivity towards ethanol. However, our findings suggest that glutamate is also involved in this respect.     

Intoxicating effects of lorazepam and barbital in rat lines selected for differential sensitivity to ethanol

The motor impairing effects and plasma concentrations of barbital and lorazepam were studied in the alcohol tolerant (AT) and alcohol non-tolerant (ANT) rat lines developed for low and high sensitivity to motor impairment from ethanol. The mixed (M) line, from which the AT and ANT rats were derived, was also included in the study. Like ethanol, barbital and lorazepam impaired the performance of the ANT rats more than that of the AT rats. The motor performance of the M rats was relatively more impaired after barbital than after lorazepam administration at the same dose used in the AT and ANT rats. At the two latter time points (2.5 and 3.5 h) the sensitive ANT rats had significantly higher serum barbital concentrations than the AT rats. The serum barbital concentrations of the AT and ANT rats did not differ, however, at the two first time points (0.5 and 1.5 h) of the tilting plane tests, although the ANT rats were significantly more intoxicated. The concentrations of lorazepam in plasma do not explain the differential motor impairment either, since the sensitive ANT rats had lower plasma concentrations than the insensitive AT rats. The results, thus, suggest that the selection involved in the development of the AT and ANT lines has not been specific for ethanol. The results also support the idea that ethanol, barbiturates and benzodiazepines have some modes of action in common.     

Role of initial sensitivity and genetic factors in the development of tolerance to ethanol in AT and ANT rats

The role of initial sensitivity and genetic factors in the development of tolerance to ethanol were examined in rats selected for low (AT) and high (ANT) sensitivity to the motor impairment effect of ethanol. Following chronic ethanol treatment (5 g/kg PO, daily for 20 days), the AT and ANT rats acquired tolerance to the motor impairment effect of ethanol at a similar rate. The AT rats, however, acquired tolerance to the hypothermic effect of ethanol at a higher rate than the ANT rats. Such ethanol treatment did not produce any metabolic tolerance to ethanol in these animals. Since there is no difference in the initial response to the hypothermic effect of ethanol between the AT and ANT rats, the observed differences in the rate of tolerance development might be related to a direct genetic factor. The similar rate of tolerance development to the motor impairment effect of ethanol between the two lines was attributed to an interaction between an indirect (initial sensitivity) and a genetic factor in tolerance development.     

Effect of neurosteroids on glutamate binding sites and glutamate uptake in rat hippocampus

Effects of some neurosteroids on the binding of [3H]-glutamate, [3H]-alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) and [3H]-MK-801, as well as on the [3H]-glutamate uptake were examined in rat hippocampus. The following compounds were evaluated: (a) positive modulators of the GABA(A) receptor: 5alpha-pregnan-3alpha-ol-20-one (allopregnanolone), 5alpha-pregnane-3alpha,21-diol-20-one (allotetrahydrodeoxycorticosterone), 5alpha-pregnan-3alpha-ol-11,20-dione (alphaxalone) and 5alpha-androstan-3alpha-ol-17-one (androsterone); (b) compounds showing GABA(A)-antagonistic and/or N-methyl-D-aspartic acid (NMDA)-agonistic properties: dehydroepiandrosterone sulfate and pregnenolone sulfate; (c) a substance which, apart from its GABA(A)-agonistic potency, has a NMDA-antagonistic action: 5beta-pregnan-3alpha-ol-20-one. None of those neurosteroids tested at concentrations of 0.001-100 microM affected the binding of [3H]-glutamate, [3H]-AMPA and [3H]-MK-801 or the glutamate uptake. The present study suggests that the previously reported inhibitory effects of neurosteroids on excitatory amino acid-induced seizures and neurotoxicity can be linked neither to the direct interaction of these compounds with the above binding sites on glutamate receptor complexes, nor to the glutamate uptake mechanism.     

Plus-maze behavior and susceptibility to 3-mercaptopropionate-induced seizures in rat lines selected for high and low alcohol sensitivity

Selective outbreeding for high and low acute alcohol sensitivity has produced two rat lines (alcohol-sensitive ANT and alcohol-insensitive AT lines) that also differ in their sensitivity to GABAergic drugs, benzodiazepines and barbiturates. These rats were now compared in two behavioral tests believed to involve central GABAergic mechanisms, in elevated plus-maze test and in 3-mercaptopropionate-induced seizure test. The AT animals spent more time in the open arms of the plus-maze than the ANT rats, suggesting that the AT's behave less anxiously. The ANT's were more susceptible to seizures induced by 3-mercaptopropionate (50 mg/kg, IP) than the AT's, suggesting the ANT's having greater sensitivity to a decrease in brain GABA concentration. At the time of the first seizure signs, there was a tendency, though a nonsignificant one, to greater decreases in brain GABA in the ANT's than AT's. These results suggest that there are differences in GABA-related behaviors between ethanol-naive rats of the lines produced by selective outbreeding for differences in alcohol sensitivity. In theory, these behavioral line differences might physiologically counteract alcohol effects in the ANT's and enhance them in the AT's. In elevated plus-maze test, however, an acute dose of ethanol (1 g/kg, IP) significantly changed the behavior of the ANT animals, but only up to level of the AT rats. The apparent sensitivity to ethanol may thus be dependent on the naive behavior of the alcohol-insensitive AT and alcohol-sensitive ANT rats.     

The effects of neurosteroids on rat behavior and 3H-muscimol binding in the brain.

The effects of ICV administration of metabolites of progesterone and deoxycorticosterone [i.e., neurosteroids: AP (3alpha-hydroxy-5alpha-pregnan-20-one, allopregnanolone), 5alpha(-THDOC (3alphat-21-dihydroxy-5alpha-pregnan-20-one, 5alpha-tetrahydrodeoxycorticosterone), 5beta-THDOC (3alpha-21-dihydroxy-5beta-pregnan-20-one, 5beta-tetrahydrodeoxycorticosterone), and PS (3beta-hydroxy-5-pregnen-20-one sulfate, pregnenolone sulfate] were studied in the open-field test of neophobia and Vogel's test of conflict behavior in rats. The influence of in vivo administered 5beta-THDOC, a positive allosteric modulator of the GABA(A) receptor complex, on 3H-muscimol binding in different brain structures, was also studied with the help of quantitative autoradiography. The presented data did not reveal any anxioselective effects for a range of centrally active neurosteroids, in the ethologically orientated and conflict models of anxiety, after intracerebral drug administration. Their central effects appeared secondary to changes in rat gross behavior. It is possible that high local concentration of neurosteroids after ICV injection and production of a narrower range of behavioral effects than that of benzodiazepines, precluded manifestation of the antianxiety effects of AP, 5alpha-THDOC and 5beta-THDOC. Autoradiography did not reveal any significant changes in the specific binding of 3H-muscimol in brain structures after in vivo ICV administration of 5beta-THDOC at the behaviorally active dose. Thus, the possibility that neuroactive neurosteroids may provide a novel potential site for therapeutic interventions in anxiety disorders is not supported. The part of the experiment with 5beta-THDOC is interpreted as contributing to other results, suggesting the existence of a new category of neurosteroids acting as partial agonists of the GABA(A) receptor.     

Effects of moderate ethanol sedation on brain regional 2-deoxyglucose uptake in alcohol-sensitive and alcohol-insensitive rat lines

Acute intraperitoneal ethanol administration (2 g/kg) decreased the accumulation of radioactivity after [14C]2-deoxy-D-glucose injection into grossly dissected brain regions of alcohol-sensitive (ANT) and alcohol-insensitive (AT) rat lines. In autoradiography, the balance of radioactivity uptake between different functional systems (as judged from relative optical density ratios) was changed after ethanol: especially in the ANT rats, areas associated with sensory input were damped but motor relay nuclei were relatively active, suggesting a tendency to motor overactivity relative to sensory input. The ANT rats furthermore showed slight relative damping of cortical associative areas and differences in limbic structures compared to the AT rats, which, provided that changes in the balance between brain regions with a decreased overall activity are meaningful, suggests that the higher level of ethanol-induced motor impairment of the ANT rats may be related to defects in their integration of sensory and motor processes.     

5 alpha-pregnan-3 alpha,20 alpha-diol behaves like a partial agonist in the modulation of GABA-stimulated chloride ion uptake by synaptoneurosomes

In rat cortical synaptoneurosomes, the maximum potentiation of GABA-stimulated 36Cl uptake produced by 5 alpha-pregnan-3 alpha,20 alpha-diol (5 alpha-pregnanediol) is significantly less than that elicited by 5 alpha-pregnan-3 alpha-ol-20-one (3 alpha-OH-DHP). This observation suggests that 5 alpha-pregnanediol may be a partial agonist whereas 3 alpha-OH-DHP acts as a full agonist at a common site on or near the GABAA/benzodiazepine receptor-chloride ionophore complex (GBRC). This hypothesis is supported by the finding that 5 alpha-pregnanediol will antagonize in a dose-dependent manner the enhancement of GABA-stimulated 36Cl uptake produced by 3 alpha-OH-DHP under certain conditions. Collectively, these findings support the hypothesis that GBRC-active progesterone metabolites with varying degrees of efficacy exist as reflected by their differential ability to potentiate 36Cl uptake in brain synaptoneurosomes.     

Effect of GABAergic drugs on motor impairment from ethanol, barbital and lorazepam in rat lines selected for differential sensitivity to ethanol

The effect of GABAergic drugs on the motor-impairing effects of ethanol, barbital, and lorazepam were studied in the ethanol-sensitive ANT (Alcohol Nontolerant) and ethanol-insensitive AT (Alcohol Tolerant) rat lines, selected for differential ethanol-induced motor impairment on the tilting plane. The basic population from which these rat lines were derived, the mixed (M) line, was also included in the study. The ANT rats were more sensitive to the intoxicating effects of ethanol, barbital, and lorazepam than the AT and M rats at the dose ranges tested. Picrotoxin antagonized motor impairment from all three drugs. Flumazenil (Ro 15-1788) antagonized only the effects of lorazepam, and isoniazid did not modify motor impairment induced by any of the three drugs. These results confirm that the selection of AT and ANT lines has not been specific to ethanol, and that it has increased sensitivity to ethanol, barbital, and lorazepam in the ANT rats rather than decreasing it in the AT rats relative to the M rats. The finding that picrotoxin counteracted motor impairment from ethanol, barbital, and lorazepam support the view that the GABAA receptor complex is important in mediating the intoxicating effects of these drugs. These results also suggest that the genetically-determined difference in sensitivity to ethanol between the rat lines involves GABAergic mechanisms, but it remains to be determined whether any part of the GABAA receptor itself has been affected by the selection program.     

Chronic intermittent ethanol (CIE) administration in rats decreases levels of neurosteroids in hippocampus, accompanied by altered behavioral responses to neurosteroids and memory function

The administration of ethanol on a chronic intermittent regimen (CIE) involving multiple withdrawal episodes is a model for ethanol dependence. After CIE, rats exhibited reduced seizure threshold, increased anxiety, tolerance to GABAergic sedative-hypnotic drugs, and changes in GABA(A) receptor function and subunit composition in hippocampus. Previous studies have shown that acute and chronic ethanol may induce changes in the levels of the neurosteroid 3alpha-hydroxysteroid-5alpha-pregnan-20-one (3alpha, 5alpha-THP) in the brain. Therefore, the current study analyses the correlation between chronic intermittent ethanol effects on the level of 3alpha, 5alpha-THP in hippocampus of CIE rats and the behavioral changes in sensitivity to neurosteroids. After CIE, the levels for 3alpha, 5alpha-THP were significantly reduced in hippocampus of rats. The mRNA levels for the enzymes 5alpha-reductase and 3alpha-HSD in hippocampus were also reduced. In vivo, (in contrast to a tolerance to the hypnotic effect of steroids), CIE rats showed increased sensitivity to the anticonvulsant and to the anxiolytic effect of the steroid alphaxalone. Perhaps, this is a response to lowered levels of endogenous neuroactive steroids. CIE rats also showed impairment of hippocampus-dependent memory function. These results suggest that changes in neurosteroids level and in vivo sensitivity to these compounds are involved in the development of ethanol dependence in the CIE model.     

Enhancement of [3H]muscimol binding to brain synaptic membranes by progesterone and related pregnanes

Progesterone (a delta 4-3 keto-pregnane) as well as a series of pregnanes enhanced [3H]muscimol binding to rat cerebral cortex membranes. This effect was increased by preincubation in the presence of the drugs, progesterone being effective only after a 30 min preincubation. The effect of progesterone was dose-dependent from 1 nM to 100 microM reaching a maximum of 140% over control. Its 20 alpha and 20 beta reduced metabolites (20 alpha- and 20 beta-OH-4-pregnen-3-one) had no effect. Ring A reduction in either the 5 alpha or 5 beta position resulted in steroids (5 alpha- and 5 beta-pregnane-3,20-di-one) producing moderate but consistent facilitation of binding (30-40% increase at 10 microM). The presence of a hydroxyl group in C3 had variable results in the potency of pregnanes to facilitate muscimol binding. Pregnanes with a 3 beta-OH group showed weaker activity than those having a 3 alpha-OH group, 5 alpha-pregnan-3 alpha-ol-20-one being the most potent (100% stimulation). Pregnenolone, a delta 5-3 beta-OH-pregnane, was only effective at low concentrations (10 nM to 10 microM). Scatchard analysis of [3H]muscimol binding in the presence of progesterone and 5 alpha-pregnan-3 alpha-ol-20-one revealed that the observed effect was due to an increase in binding sites rather than to a change in affinity.     

Hormone responses to sedative drugs and cold exposure in two rat lines with high and low alcohol sensitivity.

Two rat lines bred for differences in motor impairment in the tilting plane test after a moderate dose of ethanol were compared for peripheral hormone responses. The alcohol-sensitive ANT rats had significantly lower plasma corticosterone concentrations than the alcohol-insensitive AT rats 30 min after an IP saline injection. Ethanol (2 g/kg, IP) and lorazepam (3 mg/kg, IP) injections increased the corticosterone concentration in ANT rats. Sodium barbital (160 mg/kg, IP) did not produce any increase in these rats; instead, it prevented any increase caused by a tilting plane test procedure 10 min before decapitation. Three trials on the tilting plane significantly elevated the corticosterone concentration in saline-treated ANT rats, but produced no additional increase in drug-treated ANT rats. In AT rats, drug injections caused no significant corticosterone increase but the tilting plane test procedure after barbital (lorazepam) treatment(s) elevated the corticosterone concentration. Cold exposure (+4 degrees C for 30 min) of the drug-naive animals elevated their concentrations of serum and adrenal corticosterone, thyrotropin, and growth hormone, but not of prolactin and luteinizing hormone. The increase in serum corticosterone was greater in AT than ANT rats, whereas the increase in serum thyrotropin was slightly greater in ANT rats. No differences between the rat lines were found in the growth hormone, prolactin, and luteinizing hormone levels. The results confirm and extend our earlier findings of the inability of ANT rats to produce additional stress responses to behavioral challenges when being intoxicated by sedative drugs, which may at least partly account for their increased sensitivity to sedative drugs.     

Allosteric modulation of an expressed homo-oligomeric GABA-gated chloride channel of Drosophila melanogaster.

1. Functional GABA-gated chloride channels are formed when cRNA encoding the Drosophila melanogaster GABA receptor subunit RDL is injected into the cytoplasm of Xenopus oocytes. Two-electrode voltage-clamp was used to investigate allosteric modulation of GABA-induced currents recorded from the expressed, bicuculline-insensitive, RDL homo-oligomers. 2. Flunitrazepam (0.1 microM to 100 microM) had no effect on the amplitude of responses to 10 microM GABA (approximately EC10), whereas 4'chlorodiazepam (100 microM) enhanced the amplitude of submaximal responses to GABA. 3-Hydroxymethyl-beta-carboline (1 microM) and ethyl-beta-carboline-3-carboxylate (both 1 and 100 microM) had no effect on currents induced by 30 microM (approximately EC50) GABA. However 100 microM 3-hydroxymethyl-beta-carboline reduced potentiation by 4'chlorodiazepam. 3. The sodium salts of pentobarbitone (10 microM to 1 mM) and phenobarbitone (50 microM to 1 mM) dose-dependently enhanced submaximal GABA responses. Neither barbiturate activated currents in the absence of GABA. 4. At 10 microM, the steroids 5 alpha-pregnan-3 alpha-ol-20-one and alphaxalone (5 alpha-pregnan-3 alpha-ol-11,20-dione), potentiated submaximal GABA responses. The stereoselectivity of steroid action seen on vertebrate GABAA receptors was observed on RDL homo-oligomers as 5 alpha-pregnan-3 beta-ol-20-one (10 microM) was without effect. None of the three steroids tested activated currents in the absence of GABA. 5. The novel anticonvulsant, loreclezole (100 microM), potentiated the response to 10 microM GABA, but not that of saturating concentrations of GABA. delta-Hexachlorocyclohexane (0.1 microM to 30 microM) was a potent enhancer of submaximal responses to GABA of RDL. 6. The potencies of barbiturates and steroids on RDL homo-oligomers resemble those observed for several in situ insect GABA receptors, whereas those of benzodiazepine binding-site ligands are considerably reduced. The differences in the benzodiazepine pharmacology of RDL homo-oligomers and native GABA receptors, may reflect roles of other subunits in native insect receptors.     

Enhanced benzodiazepine and ethanol actions on cerebellar GABA(A) receptors mediating glutamate release in an alcohol-sensitive rat line.

Granule cell axon terminals of rat cerebellum possess benzodiazepine-insensitive GABA(A) receptors mediating glutamate release. We have investigated the ability of benzodiazepines, ethanol and furosemide to modulate the function of these receptors in the cerebellum of alcohol-tolerant (AT) and alcohol-nontolerant (ANT) rats. AT and ANT synaptosomes, prelabeled with [3H]D-aspartate, were superfused with GABA and various drugs during the K+ -depolarization. GABA similarly enhanced [3H]D-aspartate overflow in AT (EC50 = 1.7 microM) and ANT (EC50 = 3.9 microM) rats in a bicuculline-sensitive manner. Diazepam or zolpidem, at 0.1 microM, potentiated GABA at the GABA(A) receptor of ANT rats, but were ineffective at the AT receptor. Zolpidem acted with great potency (EC50 = 13.6 nM). Ethanol, added at 50 mM, potentiated GABA in ANT rats, but it was inactive at the GABA(A) receptor of the AT cerebellum. Furosemide significantly inhibited the effect of GABA in ANT, but not in AT synaptosomes. Our results show that one GABA(A) receptor (the receptor sited on granule cell terminals which mediates glutamate release) exhibits functional responses to diazepam and ethanol that differ between AT and ANT rats. However, the data with zolpidem and furosemide differ from previous results obtained with membranes of the granule cell layer suggesting that distinct GABA(A) receptor subtypes may exist on axon terminals versus soma/dendrites of granule cells.     

Modulation of the GABAA receptor by depressant barbiturates and pregnane steroids.

1. The modulation of the gamma-aminobutyric acidA (GABAA) receptor by reduced metabolites of progesterone and deoxycorticosterone has been compared with that produced by depressant barbiturates in: (a) voltage-clamp recordings from bovine enzymatically isolated chromaffin cells in cell culture, and (b) an assay of the specific binding of [3H]-muscimol to a preparation of porcine brain membranes. 2. The progesterone metabolites 5 alpha- and 5 beta-pregnan-3 alpha-ol-20-one (greater than or equal to 30 nM) reversibly and dose-dependently enhanced the amplitude of membrane currents elicited by locally applied GABA (100 microM), and over the concentration range 30 nM-100 microM stimulated the binding of [3H]-muscimol. In contrast, 5 alpha- and 5 beta-pregnan-3 beta-ol-20-one (30 nM-100 microM) had little effect in either assay, indicating a marked stereoselectivity of steroid action. 3. Scatchard analysis of the ligand binding data suggested an apparent increase in the number, rather than the affinity, of detectable [3H]-muscimol binding sites as the principle action of the active steroid isomers. 4. GABA-evoked currents were also potentiated by androsterone (1 microM) and the deoxycorticosterone metabolite 5 alpha-pregnane-3 alpha,21-diol-20-one (100 nM). 5. Secobarbitone (10-100 microM), pentobarbitone (10-300 microM) and phenobarbitone (100-500 microM) reversibly and dose-dependently potentiated the amplitude of GABA-evoked currents in the absence of any change in their reversal potential. 6. At relatively high concentrations (greater than or equal to 30 microM) secobarbitone and pentobarbitone directly elicited a membrane current. It is concluded that such currents result from GABAA receptor-channel activation since they share a common reversal potential with GABA-evoked responses (approximately 0 mV), are reversibly antagonized by bicuculline (3 microM), and potentiated by either diazepam (1 microM) or 5 beta-pregnan-3 alpha-ol-20-one (500 nM). 7. Secobarbitone (1 microM-1 mM) dose-dependently enhanced the binding of [3H]-muscimol. In common with the active steroids, an increase in the apparent number of binding sites was responsible for this effect. 8. A saturating concentration (1 mM) of secobarbitone in the ligand binding assay did not suppress the degree of enhancement of control binding produced by 5 beta-pregnan-3 alpha-ol-20-one (30 nM-100 microM). Similarly the steroid, at a concentration of 100 microM, did not influence the enhancement of [3H]-muscimol binding by secobarbitone (1 microM-1 mM).(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of steroids on gamma-aminobutyric acid receptors expressed in Xenopus oocytes by poly(A)+ RNA from mammalian brain and retina.

Electrical recordings were made in Xenopus oocytes to study the modulatory effects of steroids on gamma-aminobutyric acid (GABA) receptors expressed by RNA from mammalian brain and retina. GABA responses expressed by rat cerebral cortex poly(A)+ RNA were bicuculline-sensitive Cl- currents mediated by GABAA receptors. GABA responses expressed by bovine retina poly(A)+ RNA also were Cl- currents but were composed of two pharmacologically distinct components, one mediated by GABAA receptors and the other by GABA receptors with novel properties, which were resistant to bicuculline but were not activated by R(+)-baclofen, a selective agonist of GABAB receptors. As reported in neurons and in other expression systems, GABAA responses expressed in oocytes by cerebral cortex RNA were strongly and stereospecifically potentiated by 5 alpha-pregnan-3 alpha-ol-20-one (3 alpha-OH-DHP) and 5 alpha-pregnan-3 alpha,21-diol-20-one (THDOC). Threshold levels of potentiation were detectable using 1-2 nM steroid, and at concentrations of 50 and 500 nM 3 alpha-OH-DHP shifted the EC50 of cortex GABAA responses from a control value of 92 +/- 20 microM GABA to 40 +/- 4.3 microM and 13 +/- 1.8 microM, respectively. However, even at concentrations as high as 50 microM, 3 alpha-OH-DHP did not itself elicit appreciable membrane current responses through direct activation of the cortex GABAA receptors. In addition to potentiation, 3 alpha-OH-DHP and THDOC caused pronounced increases in the rate of desensitization of GABAA responses expressed by cortex RNA. Decay time courses of currents elicited by 1 mM GABA (90-95% of the maximum response) were fitted by the sum of two exponentials. Under control conditions, the time constant of the fast component was 4.4 +/- 0.6 sec and the slow component, 22.5 +/- 4.8 sec. 3 alpha-OH-DHP at 500 nM and 5 microM reduced the time constant of the fast component by 52 +/- 7% and 84 +/- 5%, respectively, but showed little effect on the slow component. Unlike the potentiation effect, actions of pregnenolones on desensitization did not show stringent stereoselectivity, and 5 microM 5 beta-pregnan-3 beta-ol-20-one (3 beta-OH-DHP) reduced the time constant of the fast component by 59 +/- 11%.(ABSTRACT TRUNCATED AT 400 WORDS)     

Neuronal membrane enzymes in rat lines selected for differential motor impairment by ethanol

Neuronal membrane enzyme activities were determined in naive and ethanol-treated (30 min after 2 g/kg) male and female rats of lines developed for more (ANT) and less (AT) ethanol-induced motor impairment. Ethanol did not affect acetylcholinesterase, (Na+K)-ATPase or 5'-nucleotidase activities, but adenylate cyclase activities were lowered in both cerebellum and cerebrum. Cerebral acetylcholinesterase activities were higher in ANT than AT rats. No consistent line difference was observed regarding (Na+K)-ATPase activities. Slightly higher cerebellar 5'-nucleotidase activities were found in the ANT line. Cerebellar adenylate cyclase levels were substantially higher in the AT line. No line differences were displayed in the activation of adenylate cyclase activity by dopamine or norepinephrine. It is concluded that ethanol in vivo may inhibit neuronal adenylate cyclase activity and that cerebellar phosphorylation may be a regulator of motor impairment. Cholinergic mechanisms may also be connected to the ethanol-induced motor impairment.     

3alpha,5alpha-THP mediates progestins' effects to protect against adrenalectomy-induced cell death in the dentate gyrus of female and male rats

Progestins have neuroprotective effects in several in vitro models of neurodegeneration and in vivo in seizure models. The extent to which progesterone's in vivo protective effects may generalize to models not involving seizure processes and whether progesterone's protective effects are modulated by its metabolites have not been comprehensively investigated. The present experiments investigated the effects of progesterone and its metabolites, dihydryoprogesterone (DHP) and 5alpha-pregnan-3alpha-ol-20-one (3alpha,5alpha-THP), to protect the hippocampus from damage induced by adrenalectomy (ADX). In Experiments 1 and 2, progesterone, DHP, or 3alpha,5alpha-THP administration (1 mg/kg sc) to female (Experiment 1) or male (Experiment 2) rats similarly reduced the total number of ADX-induced pyknotic cells in the dentate gyrus compared with vehicle administration. In Experiment 3, blocking progesterone's metabolism to 3alpha,5alpha-THP with coadministration of a 5alpha-reductase inhibitor, finasteride (10 mg/kg sc), in female rats attenuated progesterone's protective effects on cell death in the dentate gyrus. Together, these data suggest that progestins can protect against ADX-induced cell death and that the actions of the progesterone metabolite, 3alpha,5alpha-THP, may underlie these effects.