Chronic neurosteroid treatment produces functional heterologous uncoupling at the gamma-aminobutyric acid type A/benzodiazepine receptor complex in mammalian cortical neurons

We have investigated the effects of chronic treatment with the neurosteroid 5 alpha-pregnan-3 alpha-ol-20-one (5 alpha 3 alpha) on the gamma-aminobutyric acid (GABA)A receptor complex in cultured mammalian cortical neurons. Chronic 5 alpha 3 alpha treatment (up to 2 microM, 5 days) did not produce any changes in the morphological appearance or the cell protein content of cortical neurons. The basal binding of [3H]flunitrazepam, [3H]Ro15-1788, and [3H]Ro15-4513 was not altered after the chronic treatment. Chronic 5 alpha 3 alpha treatment did not alter the Kd or Bmax values of [3H]flunitrazepam binding to intact cortical neurons. However, chronic 5 alpha 3 alpha treatment produced uncoupling between GABA, barbiturate, and neurosteroid sites and the benzodiazepine site. The EC50 values of these ligands were not significantly altered; however, their Emax values were decreased after chronic 5 alpha 3 alpha treatment. The 5 alpha 3 alpha-induced uncoupling was time and concentration dependent. The binding of [3H]GABA and t-[35S]butylbicyclophosphorothionate was also decreased after chronic 5 alpha 3 alpha treatment. Chronic 5 alpha 3 alpha treatment decreased the Bmax of the low affinity GABAA receptor sites, without affecting the high affinity sites, and decreased the Bmax of t-butylbicyclophosphorothionate binding sites. The EC50 value for GABA-induced 36Cl- influx was not altered, whereas the Emax value was decreased after chronic 5 alpha 3 alpha treatment. Furthermore, the 5 alpha 3 alpha-induced uncoupling was reversed by concomitant exposure of the cortical neurons to 5 alpha-pregnan-3 beta-ol-20-one or R5135, suggesting an involvement of the neurosteroid and GABA recognition sites in the observed uncoupling. Taken together, these results suggest that chronic 5 alpha 3 alpha treatment produces heterologous uncoupling at the GABAA receptor complex.     

Epithelioid angiosarcoma of the intestinal tract with endothelin-1-like immunoreactivity

The allosteric modulation of the progesterone metabolite 3 alpha- hydroxy-5 alpha-pregnan-20-one (DHP) on [3H]Flunitrazepam and [35S]t-butylbicyclophosphorothionate (TBPS) binding was investigated on a soluble receptor preparation. Better results in the solubilization occurred by the use of the zwitterionic detergent CHAPS with the inclusion of the phospholipid asolectin: this treatment was found suitable to study the steroidal modulation on [3H]Flunitrazepam and [35S]TBPS binding. We found that DHP was able to enhance [3H]Flunitrazepam binding in the presence of Cl- ions, while [35S]TBPS binding was inhibited by DHP. Scatchard analysis of specific [35S]TBPS and [3H]Flunitrazepam binding yielded in a single straight line both in the controls and in the presence of the hormone; DHP increased the apparent affinity of [3H]Flunitrazepam binding without altering the apparent Bmax value. In the case of [35S]TBPS, DHP decreased the apparent Bmax value whereas the Kd value remained nearly the same.     

Neurosteroid modulation of [3H]flunitrazepam binding in the medulla: an autoradiographic study

Neurosteroids bind to unique sites on the GABA(A) receptor complex and modulate receptor function. The effects of neurosteroids on GABA(A) receptors have been well characterized in forebrain regions. However, little is known about their effects on GABA(A) receptors in the medulla, especially those areas involved in autonomic reflex pathways. Stimulation of [3H]flunitrazepam binding to the GABA(A) receptor by two progesterone metabolites, 3alpha-hydroxy-5alpha-pregnan-20-one (3alpha-OH-DHP) and 3beta-hydroxy-5alpha-pregnan-20-one (3beta-OH-DHP), was studied using autoradiographic methods in the medulla and cerebellum of female rats at estrus. [3H]Flunitrazepam binding was enhanced by 3alpha-OH-DHP in every nucleus examined in the medulla and cerebellum. This effect was stereoselective since 3beta-OH-DHP had no effect on binding in any region. No differences were observed in the degree of stimulation of [3H]flunitrazepam binding by 3alpha-OH-DHP among medullary brain regions. However, in the cerebellum, the stimulation of binding was significantly greater in the granular layer than in the molecular layer. Stimulation of [3H]flunitrazepam binding by 3alpha-OH-DHP in nuclei involved in the baroreflex pathways supports previous studies which report that neurosteroids modulate autonomic regulation of blood pressure. These actions may also underlie alterations in autonomic function during pregnancy.     

5-Alpha-dihydroprogesterone formation in human placenta from 5alpha-pregnan-3beta/alpha-ol-20-ones and 5-pregnan-3beta-yl-20-one sulfate

5Alpha-dihydroprogesterone (5alpha-DHP) is the immediate precursor of 5alpha-pregnan-3alpha-ol-20-one, a potent anxiolytic/anesthetic agent in all vertebrate animals tested, including humans. The levels of 5alpha-DHP in the plasma of pregnant women are very high; and during the third trimester of pregnancy, the blood production rate of this steroid may exceed 100 mg/24 h. 5Alpha-DHP in maternal plasma, however, cannot be accounted for totally by the metabolism of maternal plasma progesterone. This study was conducted to evaluate the possibility that 5alpha-DHP is synthesized in placenta from 5alpha-pregnan-3alpha/beta-ol-20-ones delivered to the trophoblast via the fetal umbilical blood. In incubations of placental minces with radiolabelled 5alpha-pregnan-3alpha/beta-ol-20-ones, there is extensive epimerization and the intermediate, 5alpha-DHP, is the major product. In other incubations, 5alpha-pregnan-3beta-ol-20-one-sulfate was hydrolysed and the liberated 5alpha-pregnan-3beta-ol-20-one was converted to 5alpha-DHP by homogenates of placental tissue, but 5alpha-pregnan-3beta-ol-20-one-sulfate was not. The oxidation of 5alpha-pregnan-3alpha/beta-ol-20-ones was concentrated in microsome-enriched preparations of placental tissue and the apparent Kms for 5alpha-pregnan-3alpha-ol-20-one and 5alpha-pregnan-3beta-ol-20-one were 3.6 microM and 78 nM, respectively. The Vmaxs for 5alpha-DHP formation from 5alpha-pregnan-3alpha-ol-20-one and 5alpha-pregnan-3beta-ol-20-one were, respectively, 336 pmol/min/mg protein and 9.7 nmol/min/mg protein. These oxidation reactions were supported by both NAD+ and NADP+. We suggest that progesterone, which enters the umbilical circulation from its site of synthesis in the syncytiotrophoblast, is metabolized in the fetus to 5alpha-pregnan-3alpha/beta-ol-ones and to 5alpha-pregnan-3alpha/beta-yl-20-one sulfates. These metabolites of progesterone, 5alpha-pregnan-3alpha/beta-ol-20-one and 5alpha-pregnan-3beta-yl-20-one sulfate, formed in the fetus, serve as plasma-borne substrates for trophoblast formation of 5alpha-DHP. Because of the hemochorioendothelial nature of human placentation, 5alpha-DHP secreted from the trophoblast will preferentially enter the maternal compartment, thus constituting a maternal plasma progesterone-independent source of 5alpha-DHP.     

Swim stress selectively alters the specific binding of a benzodiazepine antagonist in mice

The ability of flurazepam to antagonize the electrical precipitation of tonic hindlimb extension is reduced 24 h after mice are forced to swim for 10 min in cold water (6 degrees C). Presumably, this reduction in flurazepam's antiseizure efficacy reflects an environmental stress-induced modification of the GABAA receptor complex. The current study employed a variety of complementary in vitro approaches to characterize the delayed effects of cold-water swim stress on binding parameters of the GABAA receptor complex that may be associated with flurazepam's reduced antiseizure efficacy. The specific binding of [3H]flunitrazepam and the potentiation of this binding by chloride ions did not change after stress in the cerebral cortex, hippocampus, and cerebellum. Moreover, swim stress did not alter the ability of GABA to inhibit the binding of [35S]t-butylbicyclophosphorothionate (TBPS), a ligand that is a specific biochemical marker of the GABA-associated chloride ionophore, to crude membranes prepared from the cerebral cortex and cerebellum. Swim stress was associated with alterations of the specific binding of [3H]Ro 15-1788, a benzodiazepine receptor antagonist, to crude hippocampal and cerebellar membranes. The results are considered in the context of new insights derived from molecular cloning studies of the GABAA receptor complex.     

Dihydroergosine: anticonflict effect in rats and enhancing effects on [3H]muscimol binding in the human brain post mortem

The anticonflict activity of the ergot alkaloid, dihydroergosine, a drug which binds to 5-hydroxytryptamine1 (5-HT1) receptors and to gamma-aminobutyric acidA (GABAA) receptor-associated Cl- ionophore, was studied in water-deprived rats. In vitro effects of this drug on [3H]muscimol and [3H]flunitrazepam binding to the crude synaptosomal pellet of the human frontal cortex post-mortem were also investigated. Dihydroergosine, given 2 h prior to testing, enhanced drinking under punished (0.8 mA) conditions, and diminished it under unpunished conditions. The mechanism of this effect was (-)-propranolol- and pindolol-insensitive and picrotoxin-sensitive. Flumazenil either failed to affect, or at a higher dose (10 mg/kg), counteracted the dihydroergosine-induced enhancement of punished drinking. This dose of flumazenil was itself anxiogenic. Dihydroergosine had mild sedative and analgesic properties. Low concentrations of dihydroergosine (10 nM to 100 microM) enhanced the binding of [3H]muscimol but not of [3H]flunitrazepam. The results suggest that dihydroergosine may possess anxiolytic properties presumably mediated by its specific action at the GABA/benzodiazepine/chloride channel complex.     

Comparative autoradiographic distribution of central omega (benzodiazepine) modulatory site subtypes with high, intermediate and low affinity for zolpidem and alpidem

Pharmacological characterization of [3H]benzodiazepine binding to membrane preparations of adult rat hippocampus and neonatal rat brain have demonstrated, in addition to the omega 1 and omega 2 populations of central omega benzodiazepine binding sites associated with GABAA receptors, the existence of binding sites with microM affinity for the imidazopyridines zolpidem and alpidem. In the present study we have investigated their comparative autoradiographic distribution using [3H]flumazenil as a ligand. In the neonatal rat CNS, the imidazopyridine derivatives zolpidem and alpidem were found to discriminate two [3H]flumazenil binding site populations with an IC50 value ratio of more than 200-fold. In the different regions investigated (spinal cord, striatum, neocortex and inferior colliculus) the low affinity component had IC50 values of 20-40 microM (zolpidem) and 5-15 microM (alpidem) and accounted for ca. 50% of the total binding site population. In the adult rat, these imidazopyridine derivatives displayed a greater displacing potency in the cerebellum (IC50 = 6 and 36 nM, respectively) than in the hippocampus (IC50 = 37 and 403 nM, respectively). In the cerebellum, [3H]flumazenil binding was fully displaced by 1 microM of either compound and Hill coefficients of displacement curves were close to unity. In the hippocampus, 25% of [3H]flumazenil binding were resistant to 3 microM zolpidem or 1 microM alpidem, but were displaced by 100 microM of either compound. CL 218,872 also displayed a greater displacing potency in the cerebellum (IC50 = 83 nM) than in the hippocampus (IC50 = 711 nM) but [3H]flumazenil binding in the hippocampus was fully displaced by 10 microM of this compound. In adult rat hippocampus, zolpidem and alpidem were found to discriminate between three central omega site subtypes which display high (IC50 = 31 and 6.1 nM, for these imidazopyridine derivatives. In contrast, CL 218,872 discriminated between omega 1 and omega 2 sites but not between two omega 2 receptor subpopulations. omega 1 sites were mainly localized in layer IV of the sensorimotor cortex, cerebellum, substantia nigra, olfactory bulb and inferior colliculus. omega 2I sites were present in the cortical mantle (with higher levels in the cingulate and olfactory than in the sensorimotor cortex) and in subcortical (hippocampus, hypothalamus and nucleus accumbens) limbic structures. In the hippocampus, hypothalamus, spinal cord and nucleus accumbens, omega 2L sites accounted for more than 25% of the specific [3H]flumazenil binding; the density of these sites was minor in the cortex and in most pyramidal and extrapyramidal system structures.(ABSTRACT TRUNCATED AT 400 WORDS)     

Autoradiographic characterization of [3H]inositol (1,4,5) trisphosphate and [3H]inositol (1,3,4,5) tetrakisphosphate binding sites in human brain

Autoradiographic techniques were used to investigate the characteristics of tritiated inositol(1,4,5)trisphosphate ([3H]IP3) and inositol (1,3,4,5) tetrakisphosphate ([3H]IP4) binding to human brain. In brain sections [3H]IP3 exhibited a two-site binding with KD values of 87 nM and 9.3 microM respectively for the higher and lower affinity sites. [3H]IP4 also bound to two sites with KD values of 43 nM and 1.4 microM, respectively. With the conditions fixed in this study, [3H]IP3 and [3H]IP4 autoradiography in the cortex, caudate, hippocampus and cerebellum were performed. The most prominent [3H]IP3 binding among these regions was found in the cerebellum, particularly in the molecular layer. Within the hippocampus, the subiculum and the CA1 region showed much more prominent binding than the other subfields. [3H]IP4, binding was fairly homogeneous in the regions studied, with the exception of a slightly higher binding in the molecular layer of the cerebellum.     

Neuroactive steroids induce GABA(A) receptor-mediated depolarizing postsynaptic potentials in hippocampal CA1 pyramidal cells of the rat

Intracellular recordings were performed in area CA1 pyramidal cells of rat hippocampal slices to determine the effects of certain steroids on inhibitory postsynaptic potentials/currents (IPSP/Cs) mediated by GABA(A) receptors. Following application of the steroids 5alpha-pregnan-3alpha,21-diol-20-one (5alpha-THDOC), alphaxalone and 5beta-pregnan-3alpha-ol-20-one (pregnanolone) hyperpolarizing PSPs developed into biphasic responses consisting of an early hyperpolarizing and a late depolarizing PSP sequence. Steroid-induced depolarizing PSPs could be elicited in the presence of antagonists to non-NMDA, NMDA, and GABA(B) receptors, indicating that these receptor types do not contribute significantly to the initiation of these responses. Depolarizing PSPs were completely blocked by both GABA(A) receptor antagonists bicuculline and t-butylbicyclophosphorothionat (TBPS) providing evidence for their mediation by GABA(A) receptors. The reversal potential of steroid-induced late inward PSCs, measured in single-electrode voltage clamp, was -29.9+/-5.3 mV, whereas the early outward current, which corresponded to the early hyperpolarizing component of PSPs, reversed at -68.2+/-1.5 mV. Depolarizing PSPs and late inward PSCs were sensitive to reduction of extracellular [HCO3-] and block of carbonic anhydrase by application of acetazolamide. The results suggest that certain neuroactive steroids can induce GABA(A) receptor-mediated depolarizing PSPs, which are dependent on HCO3-.     

Perivascular localization of nitric oxide synthase in the rat adenohypophysis: potential implications for function and cell-cell interaction

Effects of activation of protein kinase C (PKC) on N-methyl-D-aspartate) NMDA receptor function were analyzed by quantitative autoradiography using [3H]MK-801 in rat brain slices. The density of [3H]MK-801 binding was highest in hippocampus and high levels were found in cortex, striatum and thalamus. Levels in brainstem and molecular layer of cerebellum were low. The receptor binding was markedly decreased in almost all areas by addition of 2. 5 mM Mg2+. After activation of PKC by 100 nM phorbol-12, 13-dibutyrate (PDBu), [3H]MK-801 binding was increased in most areas, but binding levels were not changed in brainstem and cerebellum. The elevated [3H]MK-801 binding produced by PDBu was significantly inhibited by addition of Mg2+ except in inferior colliculus and cerebellum. These results suggest that activation of PKC potentiates NMDA receptor function in a region-specific manner in the rat brain.     

Base and fog densities of fresh Ektaspeed Plus dental X-ray films

Binding of [3H]ethynylbicycloorthobenzoate ([3H]EBOB) to the gamma-aminobutyric acid type A (GABAA) receptor of cultured cerebellar granule neurons is inhibited by GABA, muscimol and 3-aminopropanesulfonic acid with IC50 values of 69-250 nM. Sensitivity to these GABA mimetics is lower by 3-4-fold for cerebellum and 10-20-fold for cerebral cortex, midbrain, and pons and medulla, a differential sensitivity by brain region and cell type consistent with earlier findings using tert-[35S]butylbicyclophosphorothionate and GABA. In contrast, the inhibitory potencies of two chloride channel blockers, alpha-endosulfan and picrotoxinin, do not differ in these assays. The hypothesis that this pharmacological profile is conferred by the alpha 6 subunit specific to cerebellar granule cells is supported by the finding that forskolin (which downregulates the alpha 6 subunit) but not the inactive dideoxyforskolin markedly decreases the sensitivity of [3H]EBOB binding to GABA without affecting inhibition by alpha-endosulfan.     

Rat and human hippocampal alpha5 subunit-containing gamma-aminobutyric AcidA receptors have alpha5 beta3 gamma2 pharmacological characteristics

The gamma-aminobutyric acid (GABA)A receptor is a hetero-oligomer consisting of five subunits, the combination of which confers unique pharmacological properties to the receptor. To understand the physiological role of native GABAA receptors, it is critical to determine their subunit compositions. The pharmacological characteristics of human alpha5 beta3 gamma2 and alpha5beta3gamma3 GABAA receptors stably expressed in L(tk-) cells were characterized with the alpha5-selective ligand [3H]L-655,708 and compared with the pharmacological characteristics of [3H]L-655,708 binding sites from rat and human hippocampus. Saturation analyses revealed a 9-fold selective affinity of [3H]L-655,708 for alpha5 beta3 gamma2 receptors (Kd = 1.7 +/- 0.4 nM), compared with alpha5 beta3 gamma3 receptors (Kd = 15 +/- 3 nM). Rat and human hippocampal [3H]L-655,708 binding sites had affinities of 2.2 +/- 0.6 and 1.0 +/- 0.2 nM, respectively, comparable to the affinity of alpha5 beta3 gamma2 receptors. Pharmacological analysis of [3H]L-655,708 binding sites in rat and human hippocampi revealed a strong correlation with the affinities of seven benzodiazepine site ligands for alpha5 beta3 gamma2 but not alpha5 beta3 gamma3 receptors. Immunoprecipitation of [3H]L-655,708 binding sites from rat hippocampus with a gamma2-selective antibody yielded 19 +/- 4% of total benzodiazepine binding sites measured using [3H]Ro15-1788, whereas no specific binding was measured after immunoprecipitation with an anti-gamma3 antibody. Combinatorial immunoprecipitations of [3H]muscimol binding sites with anti-alpha5 and anti-gamma2 or anti-alpha5 and anti-gamma3 antibodies established the preferential expression of alpha5 gamma2 receptors, accounting for 22 +/- 2% of total rat hippocampal GABAA receptors. These observations provide pharmacological and structural evidence for the prevalence of alpha5 beta3 gamma2 GABAA receptors in rat hippocampus, despite the clustering of alpha5 and gamma3 loci on the same chromosome.     

The specific binding of the platelet-activating factor (PAF) receptor antagonist WEB 2086 and the benzodiazepine flunitrazepam to rat hepatocytes

Thieno-triazolodiazepines WEB 2086 and BN 50739 have been described as the potent PAF receptor antagonists. Binding of radiolabeled [3H]WEB 2086 has been widely employed to characterize PAF receptors in different cells. In a search for a PAF receptor in isolated rat hepatocytes, we discovered that the binding of [3H]WEB to rat hepatocytes was highly specific but had a relatively low affinity with a Kd of 113 nM and Bmax of 0.65 pmol/10(6) cells in freshly isolated cell suspension and Kd of 1.65 muM and Bmax of 2.0 pmol/plate in cultured hepatocytes. No consistent specific binding of [3H]PAF itself was found in the same cell preparations. The binding of [3H]flunitrazepam in the presence of the peripheral type of benzodiazepine receptor antagonist Ro 5-4864 was saturated and exhibited a K(i) of 3.8 nM and Bmax of 3.5 pmol/plate. The central type of benzodiazepine receptor antagonist clonazepam was competed for the [3H]flunitrazepam binding, however with a much lower affinity. Various antagonists inhibited the binding of [3H]WEB 2086 with a rank order BN 50739>Ro 5-4864 > or = clonazepam. Interestingly, bicuculline, specific antagonist of GABA(A) recognition sites, also significantly reduced the binding of [3H]WEB 2086. The binding of [3H]flunitrazepam was inhibited with a rank potency BN 50739>WEB 2086. Taken together, these findings suggest that the specific binding of PAF receptor antagonists WEB 2086 and BN 50739 in rat hepatocytes does not involve PAF receptors and occurs via peripheral benzodiazepine and, possibly GABA(A) receptor sites.     

Atypical in vitro and in vivo binding of [3H]S-14506 to brain 5-HT1A receptors

The tritiated derivative of the potent 5-HT1A receptor agonist S-14506 ?1[2-(4-fluorobenzoylamino)ethyl]-4-(7-methoxynaphtyl)pipera zine? was tested for its capacity to selectively label the serotonin 5-HT1A receptors both in vitro in the rat and the mouse brain, and in vivo in the mouse. In vitro studies showed that the pharmacological profile and the distribution of [3H]S-14506 specific binding sites (Kd = 0.15 nM) in different brain regions matched perfectly those of the prototypical 5-HT1A receptor ligand [3H]8-OH-DPAT. However, in the three regions examined (hippocampus, septum, cerebral cortex), the density of [3H]S-14506 specific binding sites was significantly higher (+66-90%) than that found with [3H]8-OH-DPAT. Whereas the specific binding of [3H]8-OH-DPAT was markedly reduced by GTP and Gpp(NH)p and increased by Mn2+, that of [3H]S-14506 was essentially unaffected by these compounds. In addition, the alkylating agent N-ethylmaleimide was much less potent to inhibit the specific binding of [3H]S-14506 than that of [3H]8-OH-DPAT. Measurement of in vivo accumulation of tritium one hour after i.v. injection of [3H]S-14506 to mice revealed marked regional differences, with about 2.5 times more radioactivity in the hippocampus than in the cerebellum. Pretreatment with 5-HT1A receptor ligands prevented tritium accumulation in the hippocampus but not in the cerebellum. Autoradiograms from brain sections of injected mice confirmed the specific in vivo labeling of 5-HT1A receptors by [3H]S-14506, therefore suggesting further developments with derivatives of this molecule for positron emission tomography in vivo in man.     

Binding of the non-classical cannabinoid CP 55,940, and the diarylpyrazole AM251 to rodent brain cannabinoid receptors

The binding of [123I]AM251 (a radioiodinated analog of the cannabinoid CB1 receptor antagonist SR141716A) was compared to that of [3H]CP 55,940 in mouse and rat brain preparations. Scatchard analysis of the binding of [123I]AM251 and [3H]CP 55,940 to membranes prepared from mouse cerebellum, striatum and hippocampus yielded similar Bmax values (15-41 pmol/g wet wt tissue). Kd values were lower for [123I]AM251 (0.23-0.62 nM) than for [3H]CP 55,940 (1.3-4 nM). CP 55,940 and SR141716A increased dissociation of [123I]AM251 from binding sites in mouse cerebellar homogenates to a similar extent. The structurally dissimilar cannabinoid receptor ligands THC, methanandamide, WIN 55, 212-2, CP 55,940 and SR141716A were each able to fully compete with binding of both [123I]AM251 and [3H]CP 55,940 in mouse cerebellum. In vitro autoradiography demonstrated that the distribution of binding sites for [123I]AM251 in rat brain was very similar to published distributions of binding sites for [3H]CP 55,940. Together, these observations suggest that AM251 binds to the same site (the cannabinoid CB1 receptor) in rodent brains as CP 55,940. However, the binding site domains which interact with AM251 and CP 55,940 may not be identical, since IC50 values for cannabinoid receptor ligands depended on whether [123I]AM251 or [3H]CP 55,940 was used as radioligand.     

Allopregnanolone concentration in hippocampus of prepubertal rats and female rats throughout estrous cycle

Hippocampus plays an important role in cognition, neuroendocrine function and sexual behaviour. Changes of hippocampal neuropeptide and neurotransmitter concentrations are associated to behavioural changes occurring throughout reproductive life. The present study focused the attention on the presence of a neurosteroid, 5 alpha-pregnan-3 alpha-ol-20-one (termed allopregnanolone) in hippocampus. In particular, hippocampal allopregnanolone concentration in male and female prepubertal rats and in female rats throughout estrous cycle were evaluated. Hippocampal extracts were eluted on high pressure liquid chromatography and allopregnanolone concentration was measured by radioimmunoassay. Prepubertal male and female rats (15 days old) showed highest values which significantly decreased with advancing age (25 and 60 days) (p < 0.01); the lowest hippocampal concentration of allopregnanolone was found in adult rats. Female rats on proestrus morning and afternoon showed an hippocampal allopregnanolone concentration significantly higher than on diestrus or on estrus (p < 0.01), while rats on estrus showed hippocampal allopregnanolone concentration significantly lower than during other days of estrus cycle (p < 0.01). These data indicate differences in hippocampal concentration of allopregnanolone between prepubertal and adult rats and throughout estrous cycle in female rats. This finding suggest a putative role of neurosteroids in the modulation of behavioral changes occurring throughout reproductive life.     

Antibody capture haemadherence tests for parvovirus B19-specific IgM and IgG

Repeated administration of benzodiazepines has been reported to produce tolerance in animals and humans. Using an elevated plus-maze test and an autoradiographic technique, we investigated whether repeated administration of chlordiazepoxide produced tolerance to its anxiolytic effects, and whether such repeated administration altered benzodiazepine and GABAA receptors. Tolerance to the anxiolytic effect of chlordiazepoxide was produced when it was administered at a dose of 30 mg/kg (i.p.) once a day for 10 and 14 days. In the quantitative autoradiographical study, although repeated chlordiazepoxide treatment had no effect on [3H]flunitrazepam and [3H]Ro 15-4513 binding to benzodiazepine receptors, such treatment reduced [3H]muscimol binding to GABAA receptors in the cortex, caudate putamen, and hippocampus. These results suggest firstly, the production of tolerance to the anxiolytic effects of chlordiazepoxide, and, secondly, that this tolerance may be due to the down-regulation of GABAA receptors, but not of benzodiazepine receptors.     

Liposomal amikacin: improved treatment of Mycobacterium avium complex infection in the beige mouse model

1. Binding of D,L-(E)-2-amino-4-[3H]-propyl-5-phosphono-3-pentenoic acid ([3H]-CGP 39653), a high affinity, selective antagonist at the glutamate site of the N-methyl-D-aspartate (NMDA) receptor, was investigated in rat brain by means of receptor binding and quantitative autoradiography techniques. 2. [3H]-CGP 39653 interacted with striatal and cerebellar membranes in a saturable manner and to a single binding site, with KD values of 15.5 nM and 10.0 nM and receptor binding densities (Bmax values) of 3.1 and 0.5 pmol mg-1 protein, respectively. These KD values were not significantly different from that previously reported in the cerebral cortex (10.7 nM). 3. Displacement analyses of [3H]-CGP 39653 in striatum and cerebellum, performed with L-glutamic acid, 3-((+/-)-2-carboxypiperazin-4-yl)propyl-1-phosphonic acid (CPP) and glycine showed a pharmacological profile similar to that reported in the cerebral cortex. L-Glutamic acid and CPP produced complete displacement of specific binding with Ki values not significantly different from the cerebral cortex. Glycine inhibited [3H]CGP 39653 binding with shallow, biphasic curves, characterized by a high and a low affinity component. Furthermore, glycine discriminated between these regions (P < 0.005, one-way ANOVA), since the apparent Ki of the high affinity component of the glycine inhibition curve (KiH) was significantly lower (Fisher's protected LSD) in the striatum than the cortex (33 nM and 104 nM, respectively). 4. Regional binding of [3H]-CGP 39653 to horizontal sections of rat brain revealed a heterogeneous distribution of binding sites, similar to that reported for other radiolabelled antagonists at the NMDA site (D-2-[3H]-amino-5-phosphonopentanoic acid ([3H]-D-AP5) and [3H]-CPP). High values of binding were detected in the hippocampal formation, cerebral cortex and thalamus, with low levels in striatum and cerebellum. 5. [3H]-CGP 39653 binding was inhibited by increasing concentrations of L-glutamic acid, CPP and glycine. L-Glutamic acid and CPP completely displaced specific binding in all regions tested, with similar IC50 values throughout. Similarly, glycine was able to inhibit the binding in all areas considered: 10 microM and 1 mM glycine reduced the binding to 80% and 65% of control (average between areas) respectively. The percentage of specific [3H]-CGP 39653 binding inhibited by 1 mM glycine varied among regions (P < 0.05, two-ways ANOVA). Multiple comparison, performed by Fisher's protected LSD method, showed that the inhibition was lower in striatum (72% of control), with respect to cortex (66% of control) and hippocampal formation (58% of control). 6. The inhibitory action of 10 microM glycine was reversed by 100 microM 7-chloro-kynurenic acid (7-CKA), a competitive antagonist of the glycine site of the NMDA receptor channel complex, in all areas tested. Moreover, reversal by 7-CKA was not the same in all regions (P < 0.05, two-ways ANOVA). In fact, in the presence of 10 microM glycine and 100 microM 7-KCA, specific [3H]-CGP 39653 binding in the striatum was 131% of control, which was significantly greater (Fisher's protected LSD) than binding in the hippocampus and the thalamus (104% and 112% of control, respectively). 7. These results demonstrate that [3H]-CGP 39653 binding can be inhibited by glycine in rat brain regions containing NMDA receptors; moreover, they suggest the existence of regionally distinct NMDA receptor subtypes with a different allosteric mechanism of [3H]-CGP 39653 binding modulation through the associated glycine site.     

Astroglia-released factor with negative allosteric modulatory properties at the GABA A receptor

We have previously shown, using whole-cell patch-clamp techniques, that astrocytes release a negative allosteric modulator of the gamma-aminobutyric acid type A receptor (GABAA receptor) with beta-carboline-like properties, thus, likely to act at the benzodiazepine site. Here, using patch-clamp and binding techniques, we confirm that the low-molecular-weight fraction of astroglia-conditioned medium (ACM lmf) contains a factor(s) that negatively modulates GABAA-receptor function. This factor, like beta-carbolines, enhances the specific binding of [35S]t-butyl bicyclophosphorothionate (TBPS) to adult rat cortical membranes in the presence of GABA. However, it fails to interact with various ligands of the benzodiazepine (BZD) site of the GABAA receptor ([3H]flunitrazepam, [3H]Ro 15-1788 and [3H]Ro 15-4513). The question of the actual binding site of the astroglia-derived factor on the GABAA receptor, thus, remains open and can be addressed only after the purification of the active molecule(s) of ACM Imf has been completed, and a labeled form of the endogenous ligand becomes available. Taken together, however, the data suggest that type 1 astrocytes are able to modulate the effects of the main inhibitory neurotransmission in the central nervous system.     

Kavapyrone enriched extract from Piper methysticum as modulator of the GABA binding site in different regions of rat brain

Regional differences in the modulation of [3H] muscimol binding to GABAA receptor complexes by kavapyrones, compounds of the rhizome of the plant Piper methysticum which possess sedative activity, were demonstrated using membrane fractions obtained from target brain centers of kavapyrone action: hippocampus (HIP), amygdala (AMY) and medulla oblongata (MED), and from brain centers outside the main kavapyrone effects as frontal cortex (FC) and cerebellum (CER). The kava extract enhanced the binding of [3H] muscimol in a concentration-dependent manner with maximal potentiation of 358% over control in HIP followed by AMY and MED (main target brain centers). Minimal stimulation was observed in CER followed by FC. In contrast, apart from CER, the potency of kavapyrones was similar in the brain areas investigated with EC50 values ranging between 200 and 300 microM kavapyrones. Scatchard analysis revealed that the observed effects of kavapyrones were due to an increase in the number of binding sites (Bmax), rather than to a change in affinity. At a kavapyrone concentration of 500 microM the order of enhancement in Bmax was HIP = AMY > MED > FC > CER. When kavapyrones are included together with pentobarbital or HPO the two classes of compounds produced a more than additive, i.e., synergetic effect on [3H] muscimol binding. Our findings suggest that one way kavapyrones might mediate sedative effects in vivo is through effects on GABAA receptor binding.