Immunochemical characterization of an IgG-binding protein of Streptococcus suis

Several bacterial species express surface proteins with affinity for the constant region (F_c) of immunoglobulin (Ig) of different animal species. Previous studies from our group have reported the presence of an IgG-binding protein in various serotypes of Streptococcus suis . This molecule was also shown to bind in a non-immune fashion chicken IgY and to our knowledge this characteristic is unique. In the present study, by dot-blotting, we showed that the native protein, obtained by affinity chromatography, reacted more strongly with IgG from various animal species than the denatured material. Using a competitive enzyme-linked immunosorbent assay the affinity of the native 60-kDa protein (previously identified as a 52-kDa protein) towards IgG of various animal species was compared to pig IgG. Bovine, goat and human IgG were able to compete effectively with pig IgG whereas chicken IgY constituted a poor competitor. Peptide mapping analysis using denatured protein indicated that pig and bovine IgG recognized the same proteolytic fragment whereas chicken IgY did not. The smallest proteolytic fragment that retained the binding activity towards the IgG of the different animal species tested had a molecular mass of approximately 40 kDa. Fragments with M _r<40 kDa showed specific binding activities. That is, the smallest fragment binding pig and bovine IgG had a M _r of 30 kDa whereas for goat and human IgG a fragment of less than 16 kDa still showed binding activity. Finally, we observed that antisera raised against a heat-shock protein of Pseudomonas aeruginosa reacted with the 60-kDa S. suis protein indicating that the S. suis 60-kDa protein is a member of the 60-kDa hsp family that possesses the characteristic of binding in a non-immune way mammalian IgG and chicken IgY.     

Polyclonal Antibodies Directed Against an Epitope Specific for the α4-Subunit of GABAA Receptors Identify a 67-kDa Protein in Rat Brain Membranes

Abstract: Polyclonal antibodies were raised to the C-terminal part of the γ-aminobutyric acid_A (GABA_A) receptor α4-subunit. These anti-peptide α4 (517–523) antibodies specifically identified a protein with apparent molecular mass 67 kDa in rat brain membranes. This protein was enriched by immunoaffinity chromatography of brain membrane extracts on Affigel 10 coupled to the anti-peptide α4 (517–523) antibodies and could then be identified by the anti-α4-antibodies as well as by the GABA_A receptor subunit-specific monoclonal antibody bd-28. This appears to indicate that the 67-kDa protein is the α4-subunit of GABA_A receptors. Intact GABA_A receptors appeared to be retained by the immunoaffinity column because other GABA_A receptor subunit proteins like the β2/β3-subunits and the γ2-subunit were detected in the immunoaffinity column eluate. Furthermore, in addition to the 67-kDa protein, a 51-kDa protein could be detected by the antibody bd-28 and the anti-peptide α4 (517–523) antibody in the immunoaffinity column eluate. A protein with similar apparent molecular mass was identified by the α1-subunit-specific anti-peptide α1 (1–9) antibody. In contrast to the α1-subunit, the 51-kDa protein identified by the anti-α4 antibody could not be deglycosylated by N -Glycanase. The identity of the 51-kDa protein identified by the anti-α4-antibodies thus must be further investigated.     

Paramecium Has Two Regulatory Subunits of Cyclic AMP-Dependent Protein Kinase, One Unique to Cilia

ABSTRACT. The subunit composition and intracellular location of the two forms of cAMP-dependent protein kinase of Paramecium cilia were determined using antibodies against the 40-kDa catalytic (C) and 44-kDa regulatory (R₄₄) subunits of the 70-kDa cAMP-dependent protein kinase purified from deciliated cell bodies. Both C and R₄₄ were present in soluble and particulate fractions of cilia and deciliated cells. Crude cilia and a soluble ciliary extract contained a 48-kDa protein (R₄₈) weakly recognized by one of several monoclonal antibodies against R₄₄, but not recognized by an anti-R₄₄ polyclonal serum. Gel-filtration chromatography of a soluble ciliary extract resolved a 220-kDa form containing C and R₄₈ and a 70-kDa form containing C and R₄₄. In the large enzyme, R₄₈ was the only protein to be autophosphorylated under conditions that allow autophosphorylation of R₄₄ The subunits of the large enzyme subsequently were purified to homogeneity by cAMP-agarose chromatography. Both C and R₄₈ were retained by the column and eluted with 1 M NaCl; no other proteins were purified in this step. These results confirm that the ciliary cAMP-dependent protein kinases have indistinguishable C subunits, but different R subunits. The small ciliary enzyme, like the cell-body enzyme, contains R₄₄, whereas R₄₈ is the R subunit of the large enzyme.     

Purification and Characterization of B2 Bradykinin Receptor from Rat Uterus

Abstract: A B₂ bradykinin (BK) receptor was solubilised and partially purified from rat uterine membranes by a combination of ammonium sulphate precipitation, desalting on Sephadex G-50, and hydroxyapatite and wheat germ agglutinin affinity chromatography. The partially purified BK receptor, enriched 1,500-fold, was then cross-linked to ¹²⁵l-Tyr⁰-BK using disuccinimidyl suberate and purified to homogeneity as a single protein species on two-dimensional gel electrophoresis with a molecular mass of 81 kDa. This molecular size was in agreement with the value of 80–120 kDa estimated from Sephacryl 300 size exclusion column chromatography of the B₂ receptor. The partially purified and the crude solubilised B₂ BK receptor from rat uterus showed similar affinities for BK and the BK analogues iodo-Tyr⁰-BK, D-Phe⁷-BK, and des-Arg⁹-BK, indicating that the ligand binding specificity of the receptor had been retained during the purification procedures. The biochemical properties of the solubilised B₂ BK receptor correspond to those of a hydrophobic acidic glycoprotein (isoelectric focusing gave a value of 4.5–4.7) that binds specifically to wheat germ agglutinin but has no affinity for either concanavalin A or lentil lectin, suggesting the absence of terminal mannose or glucose residues.     

Identification of an Ectokinase Activity in Cerebellar Granule Primary Neuronal Cultures

Abstract: Primary neuronal cultures from 8-day-old rat cerebellum were incubated in the presence of exogenously added 16 n M [γ-³²P]ATP. Phosphorylation of a 45-kDa endogenous protein was detected within 1 min and increased linearly for ∼20 min. Unlike what was seen with [γ-³²P]ATP, in the presence of [³²P] orthophosphate no visible phosphorylation of protein was detected after 10 min, but a different pattern of phosphorylation was obtained in 30 min. The phosphorylation of the 45-kDa protein was reduced by 80–90% in the presence of 1 µ M unlabeled ATP, 5 U/ml of apyrase, or 0.01% trypsin but not 1 m M PO₄³⁻. Phosphorylation was inversely proportional to cell density and was unaffected by addition to the cells of 56 m M KCl or 100 µ M glutamate for 3 min. The presence of exogenously added cellular protein extracts or pretreatment of the cells for up to 20 min in phosphorylation buffer also did not affect the observed phosphorylation of the 45-kDa protein. The phosphorylation was found to be insensitive to MgCl₂ but inhibited in the presence of MnCl₂ or NaF and in the absence of CaCl₂. Analogues of ATP suppressed phosphorylation of the 45-kDa protein by 80–90%. A similar inhibition was obtained in the presence of ADP or AMP. In this study, we establish via several different means that the phosphorylation of the 45-kDa protein in primary neuronal granule cultures occurs extracellularly through an ectokinase activity, which is furthermore distinguishable from a series of other presently characterized ecto-protein enzymes and intracellular kinases.     

Purification and characterization of chloroplastic NADP-isocitrate dehydrogenase from Chlamydomonas reinhardtii

Chloroplastic NADP-isocitrate dehydrogenase isoenzyme (NADP-IDH₂; EC 1.1.1.42) from the eukaryotic microalga Chlamydomonas reinhardtii was purified to electrophoretic homogeneity by a procedure which included affinity chromatography on Red-Sepharose as the key step. The 70-kDa isoenzyme was found to be a dimer formed by 40-kDa subunits. Antibodies raised against a recombinant tobacco cytosolic NADP-IDH cross-reacted strongly with the cytosolic NADP-IDH₁ and weakly with the NADP-IDH₂ isoenzyme from this alga. NADPH and GTP were found to inhibit both isoenzymes, whereas intermediates of the tricarboxylic acid cycle, glycolysis or reductive pentose phosphate cycle had no significant effect. The simultaneous presence of isocitrate and Mn²⁺ protected NADP-IDH₂ against thermal inactivation or inhibition by reagents specific for arginine or lysine.     

Characterization of a Mouse Serotonin 5-HT3 Receptor Purified from Mammalian Cells

Abstract: A serotonin 5-HT₃ receptor was functionally expressed to high levels and on a large scale in mammalian cells with the Semliki Forest virus system. Conditions were optimized to maximize detergent solubilization of the receptor, while preserving ligand binding activity. An efficient one-step purification yielding ∼50% of the histidine-tagged 5-HT₃ receptor was achieved with immobilized metal ion chromatography. The expressed receptor, in both membranes and purified preparations, exhibited wild-type ligand binding properties, characterized by one class of binding sites. The purity of the receptor was shown by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, yielding a single band at 65 kDa, and was confirmed by the specific ligand binding activity of ∼5 nmol/mg of protein. Deglycosylation of the receptor reduced the estimated relative molecular mass to 49 kDa. The apparent molecular mass of the functional receptor complex was determined by size exclusion chromatography to be 280 kDa, suggesting that the 5-HT₃ receptor is a pentameric homooligomer. The secondary structure of the 5-HT₃ receptor as determined by circular dichroism appeared to consist of mainly α-helices (50%) and β-strands (24%), with minor contributions from nonregular structure (9%). The binding of either agonist or antagonist did not alter the secondary structure of the receptor.     

Binding of 124-kilodalton oat phytochrome to liposomes and chloroplasts

Binding of the radio-iodinated 124-kDa oat ( Avena sativa L. cv. Garry) phytochrome to liposomes and chloroplasts was investigated as a model system in order to understand the molecular affinity of phytochrome toward cellular organelles in plants. The binding of intact (124 kDa) phytochrome to liposomes and chloroplasts is hydrophobic in nature, as in the case of the degraded (118/114 kDa) phytochrome, but electrostatic interactions play a greater role in the intact phytochrome. The physiologically active P_fr form of the intact phytochrome showed a binding preference over the inactive P_r form with neutral liposomes and chloroplasts. However, the P_fr form of intact phytochrome exhibits smaller binding preference than the P_fr form of degraded phytochrome over their respective P_r forms (see Kim, I.-S. and Song, P.-S. 1981, Biochemistry 20: 5482–5489, for degraded phytochrome binding). These results indicate that the 6/10 kDa N-terminus segment, which is lost in the degraded phytochrome, plays an important role in determining the protein surface properties of the intact phytochrome. A competitive binding study on phytochrome also suggested that the P_fr form had a greater binding affinity for chloroplasts than the P_r form. However, the physiological activity of the P_fr form may not be explained simply by the observed difference in binding affinity between the two forms of phytochrome.     

Photoaffinity Labeling of the Cerebral Sulfonylurea Receptor Using a Novel Radioiodinated Azidoglibenclamide Analogue

Abstract: In previous studies evidence has been presented by photoaffinity labeling that a polypeptide of 145–150 kDa represents the cerebral sulfonylurea receptor. However, covalent incorporation of [³H]glibenclamide or a ¹²⁵I-labeled glibenclamide analogue into the sulfonylurea receptor required high amounts of photoenergy and took place with low yield of photoinsertion. To provide a probe with increased photoreactivity a 4-azido-5-iodosalicyloyl analogue of glibenclamide was synthesized. Binding experiments revealed specific and reversible high-affinity binding of this novel probe to the particulate ( K _D = 0.13 n M ) and solubilized ( K _D = 0.56 n M ) sulfonylurea receptor from cerebral cortex. The novel probe showed >100-fold higher sensitivity to irradiation at 356 nm than glibenclamide. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed specific photoincorporation into a cerebral protein of 175 kDa and indicated an efficiency of photoincorporation of 9%. From dissociation binding curves following irradiation photoincorporation was estimated as 28% of specifically bound ligand. Photoincorporation into the 175-kDa protein following saturation binding of the novel probe to particulate sites from cerebral cortex indicated a K _D value of 0.38 n M . Inhibition of photoincorporation into this protein by glibenclamide, glipizide, and tolbutamide revealed K _D values for these sulfonylureas of 0.06 n M , 1.6 n M , and 1.2 µ M , respectively. These results show that the novel photoaffinity ligand can be used as a probe for detection and characterization of the sulfonylurea receptor and suggest that a 175-kDa protein represents the cerebral sulfonylurea receptor.     

Purification and characterization of distinct type of mannose-sensitive fimbriae from Salmonella typhimurium

Abstract The fimbriae (E₄) of a virulent strain of Salmonella typhimurium were purified by ion exchange chromatography in an FPLC system. They had a channelled appearance under transmission electron microscope and showed a major structural subunit of 17-kDa on sodium dodecyl sulphate-polyacrylamide gel electrophoresis. The purified fimbriae were found to agglutinate guinea pig erythrocytes, but this effect was inhibited in presence of D-mannose. Immune sera raised against the Mono-Q purified fimbriae (E₄) showed cross-reactivity with the type-1 fimbriae (F₁) composed of 21-kDa fimbrin subunit, purified by a different method from the same strain.     

ETA and ETB Specific Ligands Synergistically Antagonize Endothelin-1 Binding to an Atypical Endothelin Receptor in Primary Rat Astrocytes

Abstract: Using a whole-cell binding procedure with long incubations at low temperature and subsequent acid stripping, we have characterized an atypical endothelin (ET) receptor in primary rat cortical astrocyte cultures. We found the following: (a) no competition for ¹²⁵I-ET-1 binding by the ET_A antagonists BQ-123 and LU 135252 or the ET_B agonist IRL 1620; (b) weak competition by the ET_B antagonist BQ-788 and by the predominant ET_B ligand ET-3; (c) potent synergistic competition of ET_A and ET_B ligands in combination for ¹²⁵I-ET-1 binding; (d) potent competition of ET-1 with any of the radioligands used, ¹²⁵I-ET-1, ¹²⁵I-IRL 1620, and [³H]BQ-123; (e) lack of competition of IRL 1620 and BQ-123 with the respective other radioligand; (f) shifting of the amount of acid-strippable ¹²⁵I-ET-1 binding from 20 to 80% by ET_B ligands and to 4% by ET_A ligands; and (g) as a control, typical ET_A and ET_B binding characteristics of the RAT-1 fibroblast and the U373MG astrocytoma cell line, respectively, under our assay conditions. The unusual binding properties of astrocytic ET receptors described in this study appear to be the result of several binding sites in the receptor for different ET ligands or ligand epitopes.     

Expression and Localization of Brain Ankyrin Isoforms and Related Proteins During Early Developmental Stages of Rat Nervous System

Abstract: Expression and localization of two isoforms of brain ankyrin, 440- and 220-kDa ankyrin_B, were studied in the developing nervous system of the rat fetus. The 440-kDa ankyrin_B appeared on as early as embryonic day 13, and its level increased progressively toward the day of birth, which was similar to the expression pattern of growth-associated protein (GAP)-43, a well-established axonal protein. On the other hand, 220-kDa ankyrin_B was expressed at a low level but constitutively throughout the latter prenatal period and was a major isoform even before embryonic day 14. Whereas the localization of 440-kDa ankyrin_B was essentially confined to the axons, judging from the similarity with that of GAP-43, 220-kDa ankyrin_B showed a rather general distribution in neural tissue. The localization of L1, known as an ankyrin_B-binding protein, was similar to that of 440-kDa ankyrin_B in the brain tissue, whereas it was similar to that of 220-kDa ankyrin_B in cultured neurons, suggesting that the interaction of L1 with brain ankyrins in neurons is affected by their environment.     

Identification of the 5-Hydroxytryptamine2C Receptor as a 60-kDa N-Glycosylated Protein in Choroid Plexus and Hippocampus

Abstract: The rat 5-hydroxytryptamine_2C (5-HT_2C) receptor was identified as N -glycosylated polypeptide of 60-kDa apparent molecular mass using antibodies against its putative third and fourth (C-terminal) cytoplasmic domain. To show that the polypeptides detected on western blots and by immunoprecipitation represent the 5-HT_2C receptor, binding studies of the 5-HT_2C ligand [³H]-mesulergine to immunoprecipitates from extracts of pig choroid plexus were performed. We demonstrate the presence of a signal sequence that was cleaved off during membrane insertion resulting in a 38-kDa polypeptide. During further maturation, the receptor was N -glycosylated at two sites via a 48-kDa intermediate. This intermediate was far more abundant in choroid plexus than in hippocampus and may represent an intracellular receptor reserve. After transfection of 5-HT_2C cDNAs into cultured cells, polypeptides were observed that differed from the ones found in vivo due to abnormal N -glycosylation and possibly other alterations depending on the system used. Thus the 5-HT_2C receptor expressed in cell lines may also differ in function from the receptor in its native tissue.     

Purification and characterization of an endoamylase from tulip (Tulipa gesneriana) bulbs

Amylase activity extracted from tulip ( Tulipa gesneriana L. cv. Apeldoorn) bulbs that had been stored for 6 weeks at 4°C was resolved to 3 peaks by anion-exchange chromatography on diethylaminoethyl-Sephacel. These 3 amylases exhibited different relative mobilities during non-denaturing polyacrylamide gel electrophoresis (PAGE). The most abundant amylase form (amylase I) was purified to apparent homogeneity using hydrophobic interaction chromatography, gel filtration and chromatofocusing. The apparent molecular mass of the purified amylase was estimated to be 51 kDa by sodium dodecyl sulfate-PAGE and 45 kDa by gel filtration chromatography. The purified amylase was determined to be an endoamylase (EC 3.2.1.1) based on substrate specificity and end-product analysis. The enzyme had a pH optimum of 6.0 and a temperature optimum of 55°C. The apparent K_m value with soluble starch (potato) was 1.28 mg ml⁻¹. The presence of Ca²⁺ increased the activity and thermal stability of the enzyme. The presence of dithiothreitol enhanced the activity, while β -mercaptoethanol and reduced glutathione had no significant effect. When pre-incubated in the absence of the substrate, N-ethylmaleimide and 5,5'-dithiobis-(2-nitrobenzoic acid) partially inhibited the enzyme. α -cyclodextrins or β -cyclodextrins had no effect on enzyme activity up to 10 m M . In addition to CaCl₂, CoCl₂ slightly enhanced activity, while MgCl₂ and MnCl₂ had no significant effect at a concentration of 2 m M . ZnCl₂, CuSO₄, AgNO₃ and EDTA partially inhibited enzyme activity, while AgNO₃ and HgCl₂ completely inhibited it at 2.0 m M .     

Effects of Cerebral Ischemia on Regional Dopamine Release and D1 and D2 Receptors

Abstract: To expand on the nature of regional cerebral vulnerability to ischemia, the release of dopamine (DA) and dopaminergic (D₁ and D₂) receptors were investigated in Mongolian gerbils subjected to bilateral carotid artery occlusion (15 min) alone or with reflow (1–2 h). Extracellular cortical and striatal content of DA and its metabolites was measured by microdialysis using HPLC with electrochemical detection. The kinetic properties of D₁ and/or D₂ receptor binding sites were determined in cortical and striatal membranes with the use of radiolabeled ligands (¹²⁵I-SCH23982 and [³H]YM-09151-2, respectively). The ischemic release of DA from the striatum was greater (400-fold over preischemic level) than that from the cortex (12-fold over preischemic content). The affinity for the D₁-receptor ligand was lower ( K _D= 1.248 ± 0.047 n M ) after ischemia than that for sham controls ( K _D= 0.928 ± 0.032 n M, p < 0.001). The number of binding sites for D₂ receptors decreased in striatum ( B _max= 428 ± 18.4 fmol/mg of protein) after ischemia compared with sham controls ( B _max= 510 ± 25.2 fmol/mg of protein, p < 0.05). D₁ or D₂ binding sites were not changed either in the ischemic cortex or postischemic striatum and cortex. The findings strongly suggest that the ischemic release of DA from striatum is associated with early transient changes in D₁- and D₂-mediated DA neurotransmission.     

Binding Characteristics and Interactions of Depressant Drugs with [35S]t-Butylbicyclophosphorothionate, a Ligand that Binds to the Picrotoxinin Site

Abstract: [³⁵S]r-Butylbicyclophosphorothionate (TBPT), a cage convulsant with picrotoxinin-like activity, binds to rat brain membranes to a single site with an apparent K_D of 25.1 ± 5.6 n M and a B_max of 1.40 ± 0.22 pmol/mg protein. TBPT binding to rat brain membranes was inhibited by a variety of convulsant, depressant, anxiolytic, and anticonvulsant drugs that had previously been shown to inhibit [³H]a-dihydropicrotoxinin binding. Depressant drugs such as pentobarbital and the nonbarbiturate (+)etomidate inhibited TBPT binding in an uncompetitive manner. Thus, pentobarbital and (+)etomidate decreased both the affinity and the number of binding sites of TBPT to whole brain membranes. The IC₅₀ values of (+)etomidate (9 μ M ) and pentobarbital (90 μ M ) are similar to the EC₅₀ values at which they enhance both [³H]-γ-aminobutyric acid and [³H]diazepam binding in cerebral cortex membranes. RO5–4864, which has recently been shown to be a convulsant, also inhibited TBPT binding (IC₅₀= 10 μ M ). These results suggest that TBPT binds to the picrotoxinin site and further supports the notion that the picrotoxinin site is an important modulatory site at the benzodiazepine-GABA receptor-ionophore complex.     

Ibotenic Acid Analogues as Inhibitors of [3H]Glutamic Acid Binding to Cerebellar Membranes

Abstract: The L-[³H]glutamic acid binding capability of rat cerebellar membranes prepared with or without preincubation at 37°C followed by washing was investigated. The two preparations ( K_D = 820 nM, B_max= 54.5 pmol/mg protein; K_D = 509 nM, B_max=13.0 pmol/mg protein) showed no difference in specificity of the binding of the ibotenic acid analogues, consistent with the removal of an endogenous inhibitor by the preincubation at 37°C followed by washing. The order of potency of the ibotenic acid analogues as inhibitors of L-[³H]glutamic acid binding is different from the order of potency in vivo , suggesting that the binding sites found are different from the physiological glutamic acid receptor.