Structural Properties of the Heparan Sulfate Proteoglycans of Brain

The heparan sulfate proteoglycans present in a deoxycholate extract of rat brain were purified by ion exchange chromatography, affinity chromatography on lipoprotein lipase agarose, and gel filtration. Heparitinase treatment of the heparan sulfate proteoglycan fraction (containing 86% heparan sulfate and 10% chondroitin sulfate) that was eluted from the lipoprotein lipase affinity column with 1 M NaCl led to the appearance of a major protein core with a molecular size of 55,000 daltons, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Comparison of the effects of heparinase and heparitinase treatment revealed that the heparan sulfate proteoglycans of brain contain a significant proportion of relatively short N-sulfoglucosaminyl 6-O-sulfate [or N-sulfoglucosaminyl](alpha 1-4)iduronosyl 2-O-sulfate(alpha 1-4) repeating units and that the portions of the heparan sulfate chains in the vicinity of the carbohydrate-protein linkage region are characterized by the presence of D-glucuronic acid rather than L-iduronic acid. After chondroitinase treatment of a proteoglycan fraction that contained 62% chondroitin sulfate and 21% heparan sulfate (eluted from lipoprotein lipase with 0.4 M NaCl), the charge and density of a portion of the heparan sulfate-containing proteoglycans decreased significantly. These results indicate that a population of "hybrid" brain proteoglycans exists that contain both chondroitin sulfate and heparan sulfate chains covalently linked to a common protein core.     

Chondroitin Sulfate and Chondroitin/Keratan Sulfate Proteoglycans of Nervous Tissue: Developmental Changes of Neurocan and Phosphacan

Abstract: We have studied developmental changes in the structure and concentration of the hyaluronic acid-binding proteoglycan, neurocan, and of phosphacan, another major chondroitin sulfate proteoglycan of nervous tissue that represents the extracellular domain of a receptor-type protein tyrosine phosphatase. A new monoclonal antibody (designated 1F6), which recognizes an epitope in the N-terminal portion of neurocan, has been used for the isolation of proteolytic processing fragments that occur together with link protein in a complex with hyaluronic acid. Both link protein and two of the neurocan fragments were identified by amino acid sequencing. The N-terminal fragments of neurocan are also recognized by monoclonal antibodies (5C4, 8A4, and 3B1) to epitopes in the G1 and G2 domains of aggrecan and/or in the hyaluronic acid-binding domain of link protein. The presence in brain of these N-terminal fragments is consistent with the developmentally regulated appearance of the C-terminal half of neurocan, which we described previously. We have also used a slot-blot radioimmunoassay to determine the concentrations of neurocan and phosphacan in developing brain. The levels of both proteoglycans increased rapidly during early brain development, but whereas neurocan reached a peak at approximately postnatal day 4 and then declined to below embryonic levels in adult brain, the concentration of phosphacan remained essentially unchanged after postnatal day 12. Keratan sulfate on phosphacan-KS (a glycoform that contains both chondroitin sulfate and keratan sulfate chains) was not detectable until just before birth, and its peak concentration (at 3 weeks postnatal) was reached ～1 week later than that of the phosphacan core protein. Immunocytochemical studies using monoclonal antibodies to keratan sulfate (3H1 and 5D4) together with specific glycosidases (endo-β-galactosidase, keratanase, and keratanase II) also showed that with the exception of some very localized areas, keratan sulfate is generally not present in the embryonic rat CNS.     

Role of blood-brain barrier organic anion transporter 3 (OAT3) in the efflux of indoxyl sulfate,a uremic toxin: its involvement in neurotransmitter metabolite clearance from the brain

Renal impairment is associated with CNS dysfunctions and the accumulation of uremic toxins, such as indoxyl sulfate, in blood. To evaluate the relevance of indoxyl sulfate to CNS dysfunctions, we investigated the brain-to-blood transport of indoxyl sulfate at the blood-brain barrier (BBB) using the Brain Efflux Index method. [(3)H]Indoxyl sulfate undergoes efflux transport with an efflux transport rate of 1.08 x 10(-2)/min, and the process is saturable with a Km of 298 microm. This process is inhibited by para-aminohippuric acid, probenecid, benzylpenicillin, cimetidine and uremic toxinins, such as hippuric acid and 3-carboxy-4-methyl-5-propyl-2-furanpropanoic acid. RT-PCR revealed that an OAT3 mRNA is expressed in conditionally immortalized rat brain capillary endothelial cell lines and rat brain capillary fraction. Xenopus oocytes expressing OAT3 were found to exhibit [(3)H]indoxyl sulfate uptake, which was significantly inhibited by neurotransmitter metabolites, such as homovanillic acid and 3-methoxy-4-hydroxymandelic acid, and by acyclovir, cefazolin, baclofen, 6-mercaptopurine, benzoic acid, and ketoprofen. These results suggest that OAT3 mediates the brain-to-blood transport of indoxyl sulfate, and is also involved in the efflux transport of neurotransmitter metabolites and drugs. Therefore, inhibition of the brain-to-blood transport involving OAT3 would occur in uremia and lead to the accumulation of neurotransmitter metabolites and drugs in the brain.     

硫酸软骨素对慢性酒精中毒氧化损伤的保护作用

目的:研究硫酸软骨素时慢性酒精中毒氧化损伤的保护作用.方法:60只Wistar大鼠随机分成六个组:空白组给予蒸馏水,酒精模型组给予50%的酒精8 ml·kg-1·d-1灌胃,纳洛酮组在给予酒精三十分钟后腹腔注射纳洛酮0.08mgkg-1·d-1,硫酸软骨素低、中、高剂量组在酒精模型组的基础上分别给予硫酸软骨素50,100和150mg·kg-1·d-1.两周后酒精的剂量增加到12mg·kg-1d-1.在第八周末,分离大鼠脑组织,观察大鼠神经细胞.用生物方法测定大鼠脑组织中GSH-PX、SOD、MDA以及Ache的活性.结果:模型组大鼠大脑皮质和海马区神经细胞的数量明显减少并且排列紊乱;和酒精模型组相比较,硫酸软骨素中剂量组大脑皮质和海马区神经细胞排列较整齐,酒精+Chondroitin组脑组织中MDA的含量和Ache降低(P＜0.01),GSH-PX的含量和SOD的活力均明显增加(P＜0.01).结论:硫酸软骨素时慢性酒精中毒氧化损伤具有保护作用.     

Radioimmunoassay for Central Nervous System Myelin-Specific Proteolipid Protein

A double-antibody radioimmunoassay (RIA) has been developed with antisera to purified rat brain myelin proteolipid protein (PLP). The addition of Triton X-100 allowed antibody-antigen interaction and immune precipitation in the presence of sodium dodecyl sulfate (SDS). The RIA will accurately measure 8-80 ng of PLP in buffer or human serum. The RIA is highly specific for myelin PLP and does not cross-react with material in tissues (heart, kidney, muscle, testicle, and intestine) other than the central nervous system. The antibodies to rat myelin PLP cross-react with PLP from bovine brain homogenate or myelin. Myelin PLP was found to account for 55 and 52% of total myelin protein from bovine and rat brain, respectively. Furthermore, there is a higher concentration of PLP in white than in gray matter corresponding to the degree of myelination. Unlike myelin basic protein, myelin PLP was undetectable in both bovine and rat peripheral nervous system.     

Isolation and Immunohistochemical Localization of a Chondroitin Sulfate Proteoglycan from Adult Rat Brain

A chondroitin sulfate proteoglycan called PGM1 has been isolated from the particulate fraction of adult rat forebrain. Delipidation of the material, solubilization of proteoglycans in guanidinium chloride, precipitation at low ionic strength, and final extraction at pH 5.0 were used for its isolation. Proteoglycans were subjected to further purification by diethylaminoethyl-cellulose chromatography. Individual components were separated by gel filtration. PGM1 appeared to be a high-molecular-weight chondroitin sulfate proteoglycan, capable of strong interaction with hyaluronic acid. It was finally isolated by gel filtration on Ultrogel AcA 22 in the presence of 4 M guanidinium chloride. Monospecific antibodies obtained in rabbits against the purified molecule did not cross-react with other brain proteoglycans. Immunocytochemical techniques revealed an almost unique association of this compound with axons, particularly those known to contain neurofilaments. However, not all these axons and all parts of these axons contained PGM1. This component was not detectable in liver, intestine, spleen, kidney, lung, heart, skin, hair, lens, and muscle, a finding suggesting a specificity for the nervous tissue. This component is expressed in neural cell cultures. Despite the preservation of the neuronal specificity, it seems to lose its specific axonal localization in vitro.     

Properties of the reaction of GDP-mannose with endogenous polyisoprenylphosphates of liver membranes.

The similarity of yeast microtubular protein to the tubulins purified from other eukaryotic organisms has been open to question. This work involves the identification of two yeast proteins that resemble α and β tubulin prepared from other eukaryots in their ability to copolymerize with purified rat brain tubulin and co-migrate with α and β brain tubulin on a sodium dodecyl sulfate polyacrylamide slab gel.     

Developmental distribution of glycosaminoglycans in embryonic rat brain: Relationship to axonal tract formation

Glycosaminoglycans, the sugar moieties of proteoglycans, modulate axonal growth in vitro. However, their anatomical distribution in relation to developing axonal tracts in the rat brain has not been studied. Here, we examined the immunohistochemical distribution of chondroitin-6-sulfate and chondroitin-4-sulfate, two related glycosaminoglycan epitopes, which are present in three types of glycosaminoglycans: chondroitin sulfate C, chondroitin sulfate A, and chondroitin sulfate B. Further, we compared their distribution pattern to that of axonal tract development. Both glycosaminoglycan epitopes showed a heterogeneous spatiotemporal distribution within the developing rat brain. However, the expression of chondroitin-4-sulfate was more restricted than that of chondroitin-6-sulfate, although both epitopes were detected from embryonic day 13 until the day of birth, overlapping in many regions of the central nervous system including cortex, hippocampus, thalamus, and hindbrain. After birth, the levels of expression of both glycosaminoglycan epitopes progressively decreased and were practically undetectable after the first postnatal week. The expression of chondroitin-6-sulfate and, to a lesser extent, that of chondroitin-4-sulfate, was preferentially associated to the extracellular matrix surrounding specific axon bundles. However, the converse association was not true, and several apparently similar types of axon developed on a substrate devoid of both types of glycosaminoglycan epitopes. These results provide an anatomical background for the idea that different types of glycosaminoglycans may contribute to establish the complex set of guidance cues necessary for the specific development of defined axon tracts in the central nervous system. © 1996 John Wiley & Sons, Inc.     

Dopamine Sulfoconjugation in the Rat Brain: Regulation by Monoamine Oxidase

An increase of free 3,4-dihydroxyphenylethylamine (DA, dopamine) in the rat brain such as is found following 3,4-dihydroxyphenylalanine (L-DOPA) administration or an intraventricular injection of free dopamine did not result in DA sulfate formation, despite the presence of phenolsulfotransferase activity in various regions of the brain and the high affinity of DA for this enzyme. However, when rats were pretreated with pargyline, a monoamine oxidase inhibitor, the same treatment with L-DOPA or free DA led to active synthesis of DA sulfate. The increase in DA sulfate was significantly correlated with the degree of monoamine oxidase inhibition and directly proportional to free DA concentrations in the hypothalamus (r = 0.86), striatum (r = 0.54), and brainstem (r = 0.89). The highest ratio of DA sulfate to free DA was found in the hypothalamus, suggesting that sulfoconjugation is most active in this region. Prior treatment of rats with 6-hydroxydopamine did not decrease DA sulfate concentrations, indicating that sulfoconjugation occurs most likely in extraneuronal tissues not destroyed by the neurotoxin. The results are compatible with the notion that phenolsulfotransferase may be highly compartmentalized and that inhibition of monoamine oxidase allows the newly generated free DA to become accessible to the sulfoconjugating enzyme, resulting in increase in DA sulfation.     

Constitutive expression and localization of cytochrome P-450 1A1 in rat and human brain: presence of a splice variant form in human brain

Cytochrome P-450 function as mono-oxygenases and metabolize xenobiotics. CYP1A1, a cytochrome P-450 enzyme, bioactivates polycyclic aromatic hydrocarbons to reactive metabolite(s) that bind to DNA and initiate carcinogenesis. Northern and immunoblot analyses revealed constitutive expression of Cyp1a1 and CYP1A1 in rat and human brain, respectively. CYP1A1 mRNA and protein were localized predominantly in neurons of cerebral cortex, Purkinje and granule cell layers of cerebellum and pyramidal neurons of CA1, CA2, and CA3 subfields of the hippocampus. RT-PCR analyses using RNA obtained from autopsy human brain samples demonstrated the presence of a splice variant having a deletion of 87 bp of exon 6. This splice variant was present in human brain, but not in the liver from the same individual, and was absent in rat brain and liver. Structural modeling indicated broadening of the substrate access channel in the brain variant. The study demonstrates the presence of a unique cytochrome P-450 enzyme in human brain that is generated by alternate splicing. The presence of distinct cytochrome P-450 enzymes in human brain that are different from well-characterized hepatic forms indicates that metabolism of xenobiotics including drugs could occur in brain by pathways different from those known to occur in liver.     

Rat Brain Protein Kinase C: Purification, Antibody Production, and Quantification in Discrete Regions of Hippocampus

Protein kinase C (PKC), a calcium- and phospholipid-dependent kinase, is highly enriched in rat brain, where it may function in signal transduction processes. We purified rat brain PKC to homogeneity by a three-column procedure of diethylaminoethyl-cellulose, phenyl-Sepharose, and protamine-agarose with a yield of 16% and a final specific activity of 9,600 pmol of [3H]phorbol-12,13-dibutyrate bound/mg of protein. The pure protein consisted of a doublet of 80 and 78 kilodaltons. Rabbit antibodies prepared against a beta-type PKC synthetic peptide sequence (RAKIGQGTKAPEEKTANTISK) showed high specificity and sensitivity for PKC and recognized only the 78-kilodalton form of PKC. Micropunches (300 microns in diameter) of rat hippocampal subregions were solubilized in sodium dodecyl sulfate (SDS) sample buffer, electrophoresed on SDS-10% polyacrylamide gels, and transferred to nitrocellulose. PKC was visualized by 125I-protein A autoradiography and quantified by densitometry. The highest concentrations of PKC were found in the CA1 pyramidal cell layer (0.43 +/- 0.04 OD), with the lowest amounts in the CA3 and CA4 pyramidal cell layers (0.11 +/- 0.02 and 0.085 +/- 0.006 OD, respectively). These results demonstrate a simple way of preparing antibodies against domains of PKC. We also describe a procedure for quantifying the relative amounts of PKC in discrete brain regions.     

Membrane-associated carbonic anhydrase from rat lung. Purification, characterization, tissue distribution, and comparison with carbonic anhydrase IVs of other mammals.

Carbonic anhydrase (CA) IV was purified to homogeneity from rat lung microsomal and plasma membranes. The single N-terminal amino acid sequence showed 55% similarity to that reported for human CA IV. A monospecific antibody to the 39-kDa rat enzyme that cross-reacts on Western blots with CA IVs from other mammalian species was produced in rabbits. Digestion of rat lung enzyme with endoglycosidase (peptide-N-glycosidase F) reduced the Mr to 36,000, suggesting that rat CA contains one N-linked oligosaccharide chain. All of eight additional mammalian CA IVs that were examined also contained oligosaccharide chains, as evidenced by reduction in Mr from 52,000 (cow, sheep, and rabbit), 42,000 (pig, guinea pig, and dog), and 39,000 (mouse and hamster) to 36,000 after treatment of the respective lung microsomal membranes with peptide-N-glycosidase F. The 36-kDa human enzyme showed no change in molecular mass with this treatment. Thus, the human CA IV is the exceptional one in lacking carbohydrate. Rat lung CA IV was found to be relatively resistant to sodium dodecyl sulfate and to be anchored to membranes by a phosphatidylinositol-glycan linkage; both properties were found to be shared by other mammalian CA IVs. Western blot analysis indicated distribution of CA IV in rat tissues other than kidney and lung where it was previously known to be present. CA IV was particularly abundant in rat brain, muscle, heart, and liver, all locations where the CA IV enzyme was not known to be present previously. None was detected in rat skin or spleen.     

天可力氨糖胶囊中氨基葡萄糖硫酸钾测定方法比较

目的:选择一种能准确测定天可力氨糖胶囊中氨基葡萄糖硫酸钾含量的方法。方法:参照GB/T 20365-2006硫酸软骨素和盐酸氨基葡萄糖含量的方法进行液相色谱法测定以及利用盐酸氨基葡萄糖Fdson—Morgan反应后在525 nm左右波长处有吸收峰,测定其吸收值与标准品比较进行比色定量。结果:液相色谱法测定时胶囊中的其它中药成分干扰很大,数据偏差太大;而比色法测定时,氨基葡萄糖盐酸盐含量在175μg/mL浓度范围内,呈良好线性关系:Y(μg/mL)=0.196X-O.004,R=0.997,平均回收率102.09%。结论:该比色法测定方法灵敏、准确、简便,可供天可力氨糖胶囊中氨基葡萄糖硫酸钾含量测定。     

Direct Interaction of CASK/LIN-2 and Syndecan Heparan Sulfate Proteoglycan and Their Overlapping Distribution in Neuronal Synapses

CASK, the rat homolog of a gene (LIN-2) required for vulval differentiation in Caenorhabditis elegans, is expressed in mammalian brain, but its function in neurons is unknown. CASK is distributed in a punctate somatodendritic pattern in neurons. By immunogold EM, CASK protein is concentrated in synapses, but is also present at nonsynaptic membranes and in intracellular compartments. This immunolocalization is consistent with biochemical studies showing the presence of CASK in soluble and synaptosomal membrane fractions and its enrichment in postsynaptic density fractions of rat brain. By yeast two-hybrid screening, a specific interaction was identified between the PDZ domain of CASK and the COOH terminal tail of syndecan-2, a cell surface heparan sulfate proteoglycan (HSPG). The interaction was confirmed by coimmunoprecipitation from heterologous cells. In brain, syndecan-2 localizes specifically at synaptic junctions where it shows overlapping distribution with CASK, consistent with an interaction between these proteins in synapses. Cell surface HSPGs can bind to extracellular matrix proteins, and are required for the action of various heparin-binding polypeptide growth/differentiation factors. The synaptic localization of CASK and syndecan suggests a potential role for these proteins in adhesion and signaling at neuronal synapses.     

Photoaffinity labeling with [3H]RU 28362: a powerful tool for the study of rat brain glucocorticoid receptors

In order to study the receptor system for adrenocortical steroids in rat brain the synthetic glucocorticoid RU 28362 (11 beta, 17 beta-dihydroxy-6-methyl-17 alpha-(1-propynyl) androsta-1,4,6-trien-3-one) has been used for photoaffinity labeling. Competition and dissociation studies revealed a single class of binding sites for RU 28362 in rat brain cytosol. Photoaffinity labeling was performed by u.v.-irradiation for 2 min with a coupling efficiency of about 25%. The high efficiency permitted investigation of crude cytosolic preparations under denaturating conditions. Sodium dodecyl sulfate (SDS) and high resolution two-dimensional gel electrophoresis confirmed the high specificity of the photoaffinity labeling. The molecular weight (93 kD) as well as the isoelectric point (5.6) evaluated by these methods corresponded well to data reported for the classical glucocorticoid receptor in rat liver.     

Simultaneous determination of noradrenaline and 3-methoxy-4-hydroxyphenylethyleneglycol sulfate in discrete brain regions of the rat

A fluorometric method for measuring both noradrenaline (NA) and 3-methoxy-4-hydroxyphenylethyleneglycol sulfate (MHPG-SO₄) in the rat brain was studied. The MHPG-SO₄ assay was improved in regard to separation and sensitivity to the point where 2–3 ng of the compound can be detected. The simultaneous assay of NA and MHPG-SO₄ from the same sample was also attained by dividing the H₂SO₄ extract from the brain tissue into two portions. The method is so sensitive and accurate that it permits determination of both NA and MHPG-SO₄ in brain samples as small as the hypothalamus of the rat.     

Proteins associated with tubulin.

The distribution of proteins on SDS-urea polyacrylamide (7.5%) disc gel electrophoresis is studied from rat brain tubulin purified by three different procedures, including ammonium sulfate precipitation followed by DEAE cellulose chromotography, three cycles of polymerization-depolymerization and colchicinecontaining agarose affinity columns. Three tubulin-associated proteins other than the principal tubulin dimer are identified and characterized with respect to molecular weight, behavior on gel filtration chromatography and method of tubulin purification. One of these proteins (H₁) is released from the tubulin complex when colchicine is irreversibly bound to tubulin. These proteins may participate in processes related to microtubule assembly or function.     

Immunocytochemical Localization and Biological Activity of Hydroxysteroid Sulfotransferase in the Frog Brain

Abstract : Biosynthesis of the neuroactive steroids pregnenolone sulfate (▵⁵PS) and dehydroepiandrosterone sulfate (DHEAS) is catalyzed by the enzyme hydroxysteroid sulfotransferase (HST), which transfers the sulfonate moiety from 3'-phosphoadenosine 5' -phosphosulfate (PAPS) on thye 3-hydroxy site of steroids. Although high concentrations of ▵⁵PS and DHEAS have been detected in the rat brain, the anatomical localization of HST in the CNS has never been determined. Using an antiserum against rat liver HST, we have investigated the distribution of HST-like Immunoreactivity in the CNS of the frog Rana ridibunda. Two populations of HST-immunoreactive neurons were observed in the hypothalamus, and several bundless of positive nerves fibers were visualized in the telencephalon and diencephalon. lncubation of frog brain homogenates with [³⁵S]PAPS and [³H] pregnenolone yielded the formation of several ³H, ³⁵S-labeled compounds, including ▵⁵PS and testosterone sulfate. When [³] dehydroepiandrosterone and [³⁵S]PAPS were used as precursors, one of the ³H, ³⁵S-labeled metabolities coeluted with DHEAS. Neosynthesis of [³H]▵⁵PS and [³H]DHEAS was reduced significantly by 2,4-dichloro-6-nitrophenol, a specific inhibitor of sulfotransferases. The present study provides the first immunocytochemical mapping of HSt in the brain. Our data also demonstrate for the first time that biopsynthesis of the highly poten neuroactive steroids ▵⁵PS and DHEAS occurs in the CNS of nonmammalian vertebrates.