Amino Acid Neurotransmitter Receptor Changes in Cerebral Cortex in Alcoholism: Effect of Cirrhosis of the Liver

Gamma-aminobutyric acidA/benzodiazepine receptor binding sites and the N-methyl-D-aspartate subclass of glutamate receptor sites were assessed in synaptic plasma membrane homogenates of cerebral cortex tissue obtained at autopsy from cirrhotic and noncirrhotic alcoholic patients and matched control subjects. The alcoholic patients consumed an average of greater than 80 g of ethanol/day, the control subjects less than 20 g/day. Postmortem delays up to approximately 100 h caused no significant loss of any of the binding sites; the patient and subject groups were closely matched for age. The affinities (KD) of the receptor sites did not differ between the patient and subject groups, nor between cortical regions. Using three different radioligands ([3H]muscimol, [3H]flunitrazepam, and [3H]diazepam), the gamma-aminobutyric acidA/benzodiazepine receptor complex was found to have greater density (Bmax) in superior frontal gyrus in alcoholic patients (which selectively shows morphological change in alcoholic patients), but was unchanged in motor cortex. Alcoholic patients with cirrhosis had much less pronounced changes. The density of the N-methyl-D-aspartate subclass of glutamate receptors, assessed with [3H]MK-801, did not vary across patient and subject groups.     

Solubilization and Purification of an α-Amino-3-Hydroxy-5-Methylisoxazole-4-Propionic Acid Binding Protein from Bovine Brain

alpha-Amino-3-hydroxy-5-methylisoxazole-4-propionic acid (AMPA) is a selective ligand for an excitatory amino acid receptor subtype in mammalian brain. We have solubilized an AMPA binding protein from bovine brain membranes with 1% Triton X-100 in 0.5 M phosphate buffer and 20% glycerol at 37 degrees C and purified the stable binding sites using a series of chromatographic steps. Scatchard analysis of the purified preparation showed a curvilinear plot with dissociation constants of 10.6 and 323 nM and Bmax values of 670 and 1,073 pmol/mg of protein for the high- and low-affinity sites, respectively. Inhibition constants for several excitatory amino acid analogues were similar to those obtained for other membrane and solubilized preparations. Gel filtration of the soluble AMPA binding protein showed a single peak of [3H]AMPA binding activity at Mr approximately 500,000. With sodium dodecyl sulfate-polyacrylamide gel electrophoresis, the purified AMPA binding protein showed a single major band at Mr = 110,000. Previously, we have shown that a monoclonal antibody (KAR-B1) against a frog brain kainate binding protein selectively recognizes an unknown protein in mammalian brain migrating at Mr approximately 100,000. We now show that this antibody recognizes the major component of the purified AMPA binding protein, supporting a structural similarity between the frog brain kainate binding protein and the mammalian AMPA binding protein.     

Plasmalemma patch clamp experiments in plant root cells: procedure for fast isolation of protoplasts with minimal exposure to cell wall degrading enzymes

Summary A convenient and rapid isolation procedure for root cell protoplasts suitable for patch clamp experiments, was developed for root cells of tomato (Lycopersicon esculentum) andPlantago species, grown on hydroculture. The procedure is based on a minimal exposure of cells to cell wall degrading enzyme mixtures. After an incubation period of 30 min in a cell wall degrading enzyme mixture all free floating cells were discarded. Subsequently the root material was rinsed and a second group of cells, still present inside the tissue, was freed by application of mechanical pressure. The newly released protoplasts were filtered and collected on the glass bottom of a patch clamp dish. The bathing medium was rinsed extensively removing cellulose fibrils and protoplasts not attached to the glass. Removal of these cellulose fibrils significantly improved the seal success ratio. The isolated protoplasts were suitable for patch clamp experiments in the cell-attached patch, the whole cell and the isolated patch configuration.Abbreviations BSA bovine serum albumin - BTP bis-tris propane - CAP cell-attached patch - OOP outside out patch - PEG polyethylene glycol - WC whole cell     

ATP-dependent strontium uptake by basolateral membrane vesicles from rat renal cortex in the absence or presence of calcium

ATP-dependent Sr²⁺ transport was examined in vitro using basolateral membrane (BLM) vesicles isolated from rat renal cortex to clarify the discrimination mechanisms between strontium (Sr) and calcium (Ca) in renal tubules during reabsorption. ATP-dependent Sr²⁺ uptake and Ca²⁺ uptake were observed in renal BLM vesicles and were inhibited by vanadate. Hill plots indicate similar kinetic behavior for Ca²⁺ and Sr²⁺ uptake. The apparentK _m andV _max of ATP-dependent Sr²⁺ uptake were both higher than those for Ca²⁺ uptake. ATP-dependent Sr²⁺ uptake by BLM vesicles diminished in the presence of 0.1 μM Ca²⁺ and was more markedly inhibited by 1 μM Ca²⁺. Hill plots of Sr²⁺ uptake data with and without 0.1 μM Ca²⁺ showed that the cooperative behavior of Sr²⁺ uptake was not changed by Ca²⁺. In the presence of 0.1 μM Ca²⁺, the affinity of the transport system for Sr²⁺ and the velocity of Sr²⁺ uptake in the BLM were both decreased. However, the rate of Ca²⁺ uptake was not diminished by Sr²⁺ concentrations of <1.6 μM. These results suggest that Ca²⁺ is preferentially transported in the renal cortex BLM when Ca²⁺ and Sr²⁺ are present at the same time.     

An mRNA that specifically accumulates in maize roots delineates a novel subset of developing cortical cells

A near full-length cDNA clone (pZRP3) corresponding to an mRNA that accumulates specifically in roots of maize was isolated. The ZRP3 mRNA is ca. 600 nucleotides in length. The amino acid sequence of the predicted polypeptide is rich in leucine (16%), proline (11%), and cysteine (8.5%). The zrp3 gene appears to be expressed exclusively in roots, whereas other ZRP3-related genes are expressed in additional organs of the maize plant. In situ hybridization shows that ZRP3 mRNA accumulation is largely confined to the cells of the cortical ground meristem. Furthermore, accumulation of this mRNA occurs within a distinct subset of cortical cells, the inner three to four cell layers.Journal paper number J-14572 of the Iowa Agriculture and Home Economics Experiment Station, Ames, Iowa Project Number 2997.     

电刺激大鼠扣带前回对血压和心率的影响

电刺激大鼠扣带前回(ACg),血压升高,心率加快,同时缰核(Hb)内20.7％的神经元兴奋,22.4％的神经元抑制,56.9％的神经元无反应。双侧Hb内微量注射盐酸利多卡因,可明显阻断电刺激ACg引起的心血管反应。结果表明,ACg对心血管活动的调节,一部分是通过改变Hb的活动来实现的,Hb是ACg调节心血管活动的下行性通路之一。     

Expression of a novel nuclear protein is correlated with neuronal differentiation in vivo

We report the production of a monoclonal antibody (MAb 526) that recognizes a novel, developmentally regulated nuclear protein expressed in neurons throughout the rat nervous system. Analysis of whole brain and cell nuclear extracts by SDS-PAGE and immunoblotting determined that MAb 526 recognizes a single nuclear protein (np) of apparent molecular weight 42 kD, designated np526, as well as a slightly larger (ca. 44 kD) cytoplasmic protein. Light microscopic immunocytochemistry showed np526 to be present in neurons of all types throughout the central and peripheral nervous systems. Nuclei of both fibrous and protoplasmic astrocytes were also immunoreactive, but oligodendrocyte nuclei were negative. Positive, but highly variable immunocytochemical staining of nonneural cell nuclei in a variety of other tissues was also observed. Electron microscopic (EM) immunocytochemistry using pre-embedding peroxidase methods revealed that np526 is associated with euchromatin or with the edges of condensed chromatin bundles in neurons, indicating that it is likely to be a chromosomal protein. Most interestingly, the expression of np526 was found to be developmentally regulated in brain. Immunocytochemical analysis of the developing cerebral cortex from embryonic day (E) 16 to postnatal day (P) 4 and cerebellum from P4 to P18 revealed that np526 first appears in central neurons following the cessation of mitosis and that the intensity of nuclear staining increases during subsequent neuronal maturation. To our knowledge, np526 is the first presumptive chromosomal protein whose expression has been precisely correlated with the early postmitotic differentiation of mammalian neurons.     

Alterations of Phospholipid Metabolism in Rat Cerebral Cortex Mince Induced by Cationic Amphiphilic Drugs

Abstract Cationic amphiphilic drugs (CADs) of varied clinical use were screened to determine their capacity to alter the pattern of labeling with ³²Pj of cerebral cortex mince phospholipids. The altered phospholipid labeling patterns were qualitatively similar, the prominent features being reduced incorporation into phosphatidylcholine and increased incorporation into phosphatidic acid. Relative potencies were: (±)-propranolol > chlorpromazine = 4,4'-bis(diethylaminoethoxy) α,β -diethyldiphenylethane > desipramine > di-bucaine > pimozide > oxymetazoline = fenfluramine = haloperidol = chloroquine > amphetamine = no drug added. Propranolol was used to study the action of CADs further. Its effect was time- and dose-dependent, but in contrast with pineal gland, no label appeared in phosphatidyl-CMP (CDP-diacylglycerol), nor did dialysis of the mince to reduce diffusible substrates or exogenous addition of substrates cause appearance of liponucleotide. Thus lack of diffusible precursors is not responsible for CAD effects in vitro. Pulse-chase experiments with ³²P₁ and [2-³H]glycerol suggested that inhibition of phosphatidate phosphohydrolase may be partly responsible for the observed alterations in phospholipid labeling in the presence of CADs.     

Uptake of 36Cl and 22Na by the Brain-Cerebrospinal Fluid System: Comparison of the Permeability of the Blood-Brain and Blood-Cerebrospinal Fluid Barriers

Abstract: Transport and permeability properties of the blood-brain and blood-CSF barriers were determined by kinetic analysis of radioisotope uptake from the plasma into the CNS of the adult rat. Cerebral cortex and cerebellum uptake curves for ³⁶Cl and ²²Na were resolved into two components. The fast component (t_½ 0.02–0.05 h, fractional volume 0.04–0.08) is comprised of the vascular compartment and a small perivascular space whereas the slow component (t_½ 1.06–1.69 h, fractional volume 0.92–0.96) represents isotope movement across the blood-brain barrier into the brain extracellular and cellular compartments. Uptake curves of both ³⁶Cl and ²²Na into the CSF were also resolved into two components, a fast component (t_½ 0.18 h, fractional volume 0.24) and a slow component (t_½ 1.2 h, fractional volume 0.76). Evidence suggests that the fast component represents isotope movement across the blood-CSF barrier, i.e., the choroid plexuses, whereas the CSF slow component probably reflects isotope penetration primarily from the brain extracellular fluid into the CSF. The extracellular fluid volume of the cerebral cortex and cerebellum was estimated as ?13% from the initial slope of the curve of brain space versus CSF space curve for both ³⁶Cl and ²²Na. Like the choroid plexuses, the glial cell compartment of the brain appears to accumulate Cl from 2 to 6 times that predicted for passive distribution. The relative permeability of the blood-CSF and blood-brain barriers to ³⁶Cl, ²²Na, and [³H]mannitol was determined by calculating permeability surface-area products (PA). Analysis of the PA values for all three isotopes indicates that the effective permeability of the choroidal epithelium (blood/CSF barrier) is significantly greater than that of the capillary endothelium in the cerebral cortex and cerebellum (blood-brain barrier).     

Effect of Oxotremorine on Ornithine Decarboxylase Activity of the Adrenal Gland in Rat

Abstract: In this work we have studied the mechanism for the increase of adrenal ODC (ornithine decarboxylase, EC 4.1.1.17) activity provoked by oxotremorine, a muscarinic agonist. 1. Oxotremorine increased medullary ODC activity maximally at 2 h. Cortical enzyme responded much more slowly. 2. Blockade of peripheral muscarinic receptors with methylatropine partially reduced the response to oxotremorine in the medulla, but not cortex. 3. Hy-pophysectomy abolished the cortical, but not the medullary, responses to oxotremorine. Methylatropine reduced the effect of oxotremorine on medullary ODC in hypophysectomized rats. 4. In unilaterally splanchnicotomized rats oxotremorine caused an increase of ODC activity of the denervated adrenal gland relative to control value; activities in both medulla and cortex were significantly lower than those observed in the innervated gland. Evidence was obtained for a compensatory increase of ODC activity of the adrenal cortex (but not medulla) on the intact side of unilaterally operated rats. 5. Surgical intervention, in the form of a sham operation for transection of the spinal cord, leads to an increase of ODC activity in both parts of the adrenal gland. Transection of the cord attenuates these increases. 6. The additional increase of medullary ODC activity owing to the administration of oxotremorine to sham-operated rats is partially reduced in the adrenal medulla by muscarinic blockade, and completely in the cortex. This effect of methylatropine in regard to cortical ODC activity was not apparent in the other experiments with intact or unilaterally splanchnicotomized (unoperated side) rats. The results with unilaterally splanchnicotomized rats and those with transected spinal cord suggest that oxotremorine-induced modifications of adrenal ODC activity are centrally mediated, above the level of origin of the splanchnic nerves in the spinal cord (T_8–10). Experiments with hypophysectomized rats show that the response of the adrenal cortex to oxotremorine is entirely mediated by the hypophysis.