Regional and interspecies differences in brain progesterone metabolism.

Metabolites of [3H]progesterone were studied in slices prepared from different brain regions of male rat, mouse, and monkey. The major metabolites were 5 alpha-dihydroprogesterone (5 alpha-DHP) and 3 alpha,5 alpha-tetrahydroprogesterone (3 alpha,5 alpha-THP) in rat brain slices, 5 alpha-DHP and 20 alpha-dihydroprogesterone (20 alpha-DHP) in mouse brain slices, and 20 alpha-DHP in monkey brain slices. In rat olfactory bulb slices, 5 alpha-DHP represented 25.

Glutamate-activated currents in outside-out patches from spiny versus aspiny hilar neurons of rat hippocampal slices.

The desensitization rate of non-NMDA glutamate receptors was investigated in outside-out membrane patches obtained from morphologically identified spiny "mossy cells" (SMCs) and aspiny hilar interneurons (AHIs) in young rat hippocampal slices. The fast application of a 1 mM step of L-glutamate for 50-100 msec in the presence of TTX and dizolcipine (MK-801) onto patches excised from these neurons produced large glutamate-activated currents (GACs) that decayed with a single or double exponential time course despite the continued presence of agonist. These desensitization rates of alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA)/kainate-sensitive receptors differed markedly between patches obtained from the two cell types.

Stimulation of brain pregnenolone synthesis by mitochondrial diazepam binding inhibitor receptor ligands in vivo.

Evidence that neurosteroids are potent modulators of the action of GABA at GABAA receptors has prompted the investigation of the mechanism that controls brain neurosteroid synthesis by glial cell mitochondria in vivo. In vitro studies suggest that the interaction of the diazepam binding inhibitor (DBI)--a polypeptide that is abundant in steroidogenic cells--with glial mitochondrial DBI receptors (MDRs) is a crucial step in the physiological regulation of neurosteroid biosynthesis. MDRs bind 4'-chlorodiazepam (4'-CD), N,N-di-n-hexyl-2-(4-fluorophenyl)-indol-3-acetamide (FGIN-1-27), and the isoquinoline carboxamide PK 11195 with high affinity, and these ligands have been used to investigate whether the stimulation of glial MDRs increases brain pregnenolone production in vivo.

Regional distribution in the rat central nervous system of a mRNA encoding a portion of the cardiac sodium/calcium exchanger isolated from cerebellar granule neurons.

The cardiac Na+/Ca2+ exchanger is a bidirectional electrogenic ion transporter that exchanges three Na+ ions for each Ca2+ ion and plays a critical role in returning sarcolemma Ca2+ concentrations to their resting levels. Because of the importance that the Na+/Ca2+ exchanger may play in maintaining neuronal Ca2+ homeostasis in the central nervous system, we subcloned a 456 bp portion of the Na+/Ca2+ exchanger cDNA from RNA isolated from primary cultures of rat cerebellar granule neurons using the polymerase chain reaction (PCR). This cDNA fragment was sequenced and shown to share 91.

Stimulation of brain steroidogenesis by 2-aryl-indole-3-acetamide derivatives acting at the mitochondrial diazepam-binding inhibitor receptor complex.

The 2-aryl-indole-3-acetamide derivatives, 2-hexyl-indole-3-acetamide (FGIN-1-27) and 2-hexyl-indole-3-acetamide-N-benzene-tricarboxylic acid (FGIN-1-44) displaced [3H]1-(2-chlorophenyl)-N-methyl-N-(1- methylpropyl)-3-isoquinoline-carboxamide([3H]PK 11195) and [3H]4-chlorodiazepam ([3H]4'CD) from binding sites located on the rat brain mitochondrial DBI receptor complex (MDRC) with Ki values in the nanomolar range. Both 2-aryl-indole-3-acetamide derivatives acted as agonists at the MDRC and thereby stimulated the rate of pregnenolone synthesis in isolated rat brain mitochondria; this effect was inhibited by PK 11195, an MDRC ligand that does not possess steroidogenic activity. FGIN-1-27 and FGIN-1-44 failed to bind to other transmitter receptors, including gamma-aminobutyric-A receptors.

Developmental expression of the alpha 6 GABAA receptor subunit mRNA occurs only after cerebellar granule cell migration.

Using a competitive polymerase chain reaction (PCR) and appropriate internal standards, we have analyzed absolute amounts of the alpha 6 GABAA receptor subunit mRNA in the postnatally developing cerebellum and neocortex. The PCR data have shown that absolute amounts of the alpha 6 receptor subunit mRNA in the cerebellum increase dramatically (nearly 100-fold) during the second postnatal week, reaching maximal levels by postnatal day 21 (1 fmol/microgram total RNA). The absolute amount of the alpha 6 GABAA receptor subunit mRNA in the cortex at postnatal day 1 was 2 amol/microgram total RNA and increased to 7 amol/micrograms total RNA by postnatal day 14.

Morphologic alterations of choline acetyltransferase-positive neurons in the basal forebrain of aged behaviorally characterized Fisher 344 rats.

We examined Fisher 344 female rats aged 6, 27, and 33 months old. Prior to sacrifice and morphometric analyses of forebrain cholinergic neurons all rats underwent behavioral characterization in a spatial learning task using the Morris water maze. Performance on the spatial task permitted subsequent grouping of the 27- and 33-month-old animals into impaired or nonimpaired groups.

Evidence that transmitter-containing dystrophic neurites precede those containing paired helical filaments within senile plaques in the entorhinal cortex of nondemented elderly and Alzheimer's disease patients.

Within the amygdala of elderly subjects and patients with Alzheimer's disease (AD), we recently found evidence suggesting amyloid beta-protein (A beta P) deposition occurs before the appearance of dystrophic neurites. Moreover, these data suggested dystrophic neurites initially lack evidence of cytoskeletal pathology although with time and further maturation, the dystrophic neurites display an altered cytoskeleton as evidenced by their immunoreactivity to Alz-50 and paired-helical filaments (PHF). These findings are of particular relevance to our understanding of the sequence of pathologic events in AD and thus it has become important to determine whether these events are unique to the amygdala or are representative of a more general pattern which can be found throughout the brain.

Evidence that transmitter-containing dystrophic neurites precede paired helical filament and Alz-50 formation within senile plaques in the amygdala of nondemented elderly and patients with Alzheimer's disease.

Immunocytochemical techniques were employed to examine the temporal ordering whereby amyloid beta-protein (A beta P) and neuronal elements collectively come together to form senile plaques in Alzheimer's disease (AD). Specifically, we addressed three questions: (1) whether A beta P deposition precedes or follows neuritic changes; (2) whether paired helical filament (PHF) formation is an early or late event in the genesis of the dystrophic neurites which participate in plaque formation; and (3) whether the density of senile plaques displays any relationship with the prevalence of PHF or Alz-50 containing neurons. To address these questions we studied the amygdala from a group of patients with AD, a group of nondemented age-matched individuals exhibiting a sufficient number of senile plaques to be classified by neuropathological criteria as AD, and a group of age-matched controls without AD pathology.

Imidazenil: a new partial positive allosteric modulator of gamma-aminobutyric acid (GABA) action at GABAA receptors.

Positive allosteric modulators of gamma-aminobutyric acid (GABA)A receptors, including benzodiazepines and congeners, can be classified into three categories: 1) full allosteric modulators (i.e., triazolam and alprazolam) that act with high potency and efficacy at many GABAA receptors; 2) selective allosteric modulators (i.

Semisynthetic sphingolipids prevent protein kinase C translocation and neuronal damage in the perifocal area following a photochemically induced thrombotic brain cortical lesion.

A vascular thrombotic lesion localized to the rat sensorimotor cortex was produced following intravenous injection of the photosensitive dye rose bengal, and its activation with a small beam of high-intensity white light focused to the skull overlaying the sensorimotor cortex. In the sensorimotor cortex at various times after the triggering event, two contiguous brain regions with different degree(s) of neuronal damage can be distinguished: (1) a primary thrombotic ischemic core where the majority of cells are dead and (2) a penumbra region surrounding the core lesion in which a slower progressive neuronal degeneration is occurring. Importantly, in both brain regions the neuronal degeneration is associated with the activation and persistent translocation of protein kinase C (PKC) as indicated by an increase in 4-beta-3H-phorbol-12,13-dibutyrate (3H-PDBu) binding.

Muscarinic m3 receptors and dynamics of intracellular Ca2+ cerebellar granule neurons.

Activation of muscarinic receptors with carbachol has no effect on intracellular Ca2+ concentration in cerebellar granule cell cultures. Only after elevating intracellular Ca2+ concentrations using either 40 mM KCl or activating glutamatergic receptors was carbachol able to increase intracellular Ca2+. The response lasted about 10 s, and the median increase in intracellular Ca2+ with either 100 microM or 300 microM carbachol was about 85 nM.

Adrenal steroids mediate the increase of hippocampal nerve growth factor biosynthesis following bicuculline convulsions.

Northern blot analysis of nerve growth factor (NGF) messenger ribonucleic acid (mRNA), together with a two-site enzyme immunoassay for NGF protein, showed that a convulsive dose of bicuculline (0.4 mg/kg, IV) induced a rapid (within 1 hour) three-fold increase in hippocampal NGF mRNA. This increase was followed by a significant increase in NGF protein 5 hours later.

Participation of mitochondrial diazepam binding inhibitor receptors in the anticonflict, antineophobic and anticonvulsant action of 2-aryl-3-indoleacetamide and imidazopyridine derivatives.

The 2-hexyl-indoleacetamide derivative, FGIN-1-27 [N,N-di-n-hexyl-2- (4-fluorophenyl)indole-3-acetamide], and the imidazopyridine derivative, alpidem, both bind with high affinity to glial mitochondrial diazepam binding inhibitor receptors (MDR) and increase mitochondrial steroidogenesis. Although FGIN-1-27 is selective for the MDR, alpidem also binds to the allosteric modulatory site of the gamma-aminobutyric acidA receptor where the benzodiazepines bind. FGIN-1-27 and alpidem, like the neurosteroid 3 alpha,21-dehydroxy-5 alpha-pregnane-20-one (THDOC), clonazepam and zolpidem (the direct allosteric modulators of gamma-aminobutyric acidA receptors) delay the onset of isoniazid and metrazol-induced convulsions.

Characterization of a decrease in muscarinic m2 mRNA in cerebellar granule cells by carbachol.

Studies involving carbachol (100 microM) treatment of cerebellar granule cells for 1, 3, 6, 9, 12 and 24 hr show a decrease in the mRNA encoding for the muscarinic m2 receptor. The response was transient, decreasing m2 mRNA by 25 to 50% in 6 and 9 hr, respectively. The data presented in this work were quantified by ribonuclease protection assay, using a [32P]-cRNA probe corresponding to nucleotide +1138 to 1650 of the rat m2 muscarinic receptor.

Muscarinic m2 receptors in cerebellar granule cell cultures from rat: mechanism of short-term desensitization.

Cerebellar granule cell cultures of rat express only muscarinic m2 and m3 receptor subtypes and exhibit the pharmacological profile of muscarinic m2 receptors that couple to guanine nucleotide binding proteins to inhibit adenylyl cyclase. In vivo pretreatment with muscarinic agonists desensitizes the muscarinic m2 receptor with 50% complete desensitization within 15 to 20 min. After a 1-hr pretreatment with a maximal concentration of carbachol (short-term desensitization), m2 receptor responsiveness reappeared after a 1-hr treatment of cultures with atropine.

Induction of ornithine decarboxylase by N-methyl-D-aspartate receptor activation is unrelated to potentiation of glutamate excitotoxicity by polyamines in cerebellar granule neurons.

Polyamines positively modulate the activity of the N-methyl-D-aspartate (NMDA)-sensitive glutamate receptors. The concentration of polyamines in the brain increases in certain pathological conditions, such as ischemia and brain trauma, and these compounds have been postulated to play a role in excitotoxic neuronal death. In primary cultures of rat cerebellar granule neurons, exogenous application of the polyamines spermidine and spermine (but not putrescine) potentiated the delayed neurotoxicity elicited by NMDA receptor stimulation with glutamate.

Alzheimer's disease-like dystrophic neurites characteristically associated with senile plaques are not found within other neurodegenerative diseases unless amyloid beta-protein deposition is present.

Swollen, bulbous-shaped (dystrophic) neurites are a common pathologic feature of Alzheimer's disease (AD) and represent one of the most abundant neuritic abnormalities within the brains of patients with this disease. In the present study, we sought to determine whether the dystrophic neurites which are observed in association with senile plaques are unique to AD or whether they are characteristic of a more generalized process of neuritic and/or neuronal degeneration which can be observed in other neurodegenerative diseases. To accomplish this, we examined post-mortem brain material from patients with AD, Parkinson's disease (PD), Parkinson's disease with associated AD, Parkinson's disease with dementia yet without AD pathology, Huntington's disease (HD), Pick's disease and normal age-matched controls (NC).

During anesthetic-induced activation of hypothalamic pituitary adrenal axis, blood-borne steroids fail to contribute to the anesthetic effect.

Anesthetic doses of ethanol (100 mmol/kg p.o.), chloral hydrate (2 mmol/kg i.

Arachidonic acid lipoxygenation may mediate interleukin-1 stimulation of nerve growth factor secretion in astroglial cultures.

Interleukin-1 beta (IL-1) stimulates by about fivefold NGF secretion from rat neonatal cortical astrocytes in primary culture. We investigated the possible intracellular second messenger mechanisms involved in the IL-1 induced NGF secretion. Basal NGF secretion did not require extracellular Ca2+, whereas Ca2+ was necessary for the maximal NGF secretion stimulated by IL-1 (10 units/ml).

Triazolam is more efficacious than diazepam in a broad spectrum of recombinant GABAA receptors.

Benzodiazepine-induced modifications of GABA (gamma-aminobutyric acid) activated Cl- currents were studied in native GABAA receptors expressed in neonatal rat brain cortical neurons in primary cultures and in recombinant GABAA receptors expressed in transformed human embryonic kidney cells (293) after a transient transfection with cDNAs encoding for different molecular forms of alpha, beta, and gamma subunits of GABAA receptors. The efficacy of triazolam in cortical neurons was higher than that of diazepam. In transfected cells, triazolam showed a greater efficacy as a positive modulator of GABA-elicited Cl- currents in alpha 1 beta 1 gamma 1, alpha 1 beta 1 gamma 2, alpha 1 beta 1 gamma 3, alpha 6 beta 1 gamma 2 and alpha 1 beta 3 gamma 2 receptors than diazepam, except in alpha 3 beta 1 gamma 2 receptors where diazepam was more efficacious.

ACTH-induced mitochondrial DBI receptor (MDR) and diazepam binding inhibitor (DBI) expression in adrenals of hypophysectomized rats is not cause-effect related to its immediate steroidogenic action.

Diazepam binding inhibitor (DBI) is a 10-kDa polypeptide that is enriched in steroidogenic cells such as adrenocortical, Leydig, and glial cells. In these cells, DBI and some of its processing products bind to the mitochondrial DBI receptor (MDR), located on the outer mitochondrial membrane, and stimulate pregnenolone formation by facilitating cholesterol access to the inner mitochondrial membrane where the cytochrome P-450 side chain cleavage enzyme is located. To determine whether the ACTH-induced increase in adrenal steroidogenesis occurs via changes in DBI and MDR expression the adrenal content of DBI-like immunoreactivity (DBI-LI), the MDR density, and the expression of mRNAs encoding for DBI and MDR were studied in hypophysectomized rats treated with vehicle or ACTH.

Topology of two DBI receptors in human lymphocytes.

High-affinity binding sites for the isoquinoline carboxamide PK 11195 and 4'-chlorodiazepam (4'CD) in human lymphocytes are recognized by two putative endogenous ligands: diazepam binding inhibitor (DBI) and protoporphyrin IX. We have now demonstrated that several synthetic DBI peptides--analogues to naturally processed human DBI (H-DBI) fragments--differ from protoporphyrin IX in the manner in which they displace [3H]PK 11195 and [3H]4'CD from binding sites associated with intact and cell-free lymphocyte preparations. In particular, the peptide fragments DBI37-80 and DBI37-70 displaced [3H]PK 11195 and [3H]4'CD with higher affinity from their binding sites on intact lymphocytes (Ki approximately 3-5 microM) than from the sites in the cell-free preparation (Ki approximately 20 microM).