Increased Nervous System-Specific Enolases in Rat Plasma and Cerebrospinal Fluid in Bilirubin Encephalopathy Detected by an Enzyme Immunoassay

Abstract: Three forms of enolase isozymes (αα, αγ, and γγ), including nervous system-specific forms, were measured in the cerebrospinal fluid and the blood plasma of jaundiced or nonjaundiced infant rats by means of enzyme immunoassay systems capable of detecting each form of enolase at the 1 amol (10⁻¹⁸ mol) level. Average enolase levels in cerebrospinal fluid in normal rat were 2.0, 0.2 and 0.1 pmol/ml for αα, αγ, and γγ forms, respectively. Levels of αγ and γγ forms (nervous system-specific enolases; NSE) in jaundiced rats, which suffer Purkinje cell degeneration due to the inborn hyperbilirubinemia, were three to four times as high as the normal values. When kernicterus was induced in jaundiced rats by an injection of bucolome, the NSE level in cerebrospinal fluid was elevated up to more than 30-fold the control, together with a significantly higher level of αγ form in blood plasma. These results suggest that assays of NSE in the cerebrospinal fluid or the blood plasma are helpful in detecting neuronal damage in the central nervous system.     

Changes in the Expression of the αα Form of Enolase During Neuroblastoma Differentiation

Abstract: The relative amounts of the different enolase isozymes present in neuroblastoma cells change during differentiation. When differentiation is induced by low serum in the presence of DMSO (dimethyl sulfoxide), there is a 50% decrease in the concentration of enolase activity associated with the form αα, and an increase in the activity associated with the γ-containing isozymes (αγ plus γγ); in the absence of DMSO, there is no decrease in αα or in total enolase activity. In order to study the mechanism of the changes in αα, cells differentiated with low serum with and without DMSO were compared. Measurements of the concentration of the α antigen by microcomplement fixation and by immunotitration demonstrate that the decreased enolase activity in DMSO cells is due to a decreased concentration of the α antigen. Measurements of the relative rate of synthesis of the antigen show that the decreased concentration of the α antigen is due to a decreased rate of synthesis. Enolase in differentiated cells is sufficiently stable (t_1/2 > 100 h) that a comparison of the relative rates of degradation has not been possible. The decreased synthesis of the α subunit of enolase that occurs under these conditions appears to be a useful model system for studying the de-expression of the α gene that occurs in vivo during neuronal differentiation.     

Evidence for the Existence of Differential O-Glycosylated α5-Subunits of the γ-Aminobutyric AcidA Receptor in the Rat Brain

Abstract: Polyclonal antibodies were raised to synthetic peptides having amino acid sequences corresponding with the N- or C-terminal part of the γ-aminobutyric acid_A (GABA_A) receptor α₅-subunit. These anti-peptide α₅(2–10) or anti-peptide α₅(427–433) antibodies reacted specifically with GABA_A receptors purified from the brains of 5–10-day-old rats in an enzyme-linked immunosorbent assay and were able to dose-dependently immunoprecipitate up to 6.3 or 13.1% of the GABA_A receptors present in the incubation, respectively. In immunoblots, each of these antibodies reacted with the same two protein bands with apparent molecular mass of 53 or 57 kDa. After exhaustive treatment of purified GABA_A receptors with N -Glycanase, each of these antibodies identified two proteins with apparent molecular masses of 46 and 48 kDa. Additional treatment of GABA_A receptors with neuraminidase and O -Glycanase resulted in an apparently single protein with molecular mass of 47 kDa, which again was identified by both the anti-peptide α₅(2–10) and the anti-peptide α₅(427–433) antibody. These results indicate the existence of at least two different α₅-sub-units of the GABA_A receptor that differ in their carbohydrate content. In contrast to other α- or β-subunits of GABA_A receptors so far investigated, at least one of these two α₅-subunits contains O-linked carbohydrates.     

Properties and application to immunoassay of monoclonal antibodies to neuron-specific γγ enolase

Two monoclonal antibodies to human and bovine neuron-specific γγ enolase have been produced in the isolated hybrid cell lines, which were obtained by fusion between γγ-immunized mouse spleen cells and mouse myeloma cells (P3-NS-1/1-Ag4-1), followed by a screening procedure with an enzyme immunoassay. The monoclonal antibody to human γγ enolase (E1-G3) and that to bovine γγ enolase (B1-D6) consisted of γ2a/κ and γl/κ immunoglobulin chains, respectively. Both antibodies could bind with the respective antigen with a molar ratio of about 1:1, and were found to be specific for the γ subunit of enolase, showing reactivities with human γγ and αγ, rat γγ and αγ, and bovine γγ enolases. However, the antibodies did not cross-react with the α or β subunit of human and rat enolase isozymes. Both antibodies could partially inhibit the activity of γγ and αγ enolases. E1-G3 antibody inhibited γγ and αγ enolase activity by 70 and 30%, respectively, and B1-D6 antibody, by 90 and 40%, respectively. Both antibodies had no effect on the activity of αα and ββ enolases of human and rat origins. The applicability of E1-G3 and B1-D6 antibodies to the sandwich-type enzyme immunoassay for neuron-specific enolase (enolase γ subunit) was examined, and it was found that the assay system using E1-G3 and B1-D6 as the labeled antibodies were sufficiently sensitive for the assay of serum neuron-specific enolase concentrations.     

The Subunit Composition of a GABAA/Benzodiazepine Receptor from Rat Cerebellum

Abstract: The pentameric subunit composition of a large population (36%) of the cerebellar granule cell GABA_A receptors that show diazepam (or clonazepam)-insensitive [³H]Ro 15-4513 binding has been determined by immunoprecipitation with subunit-specific antibodies. These receptors have α₆, α₁, γ_2S, γ_2L, and β₂ or β₃ subunits colocalizing in the same receptor complex.     

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.     

A RECOMBINATION ASSAY OF HIGH MOLECULAR WEIGHT NERVE GROWTH FACTOR PROTEIN COMPLEXES

Abstract— The 7S Nerve Growth Factor (NGF) found in mouse is a protein composed of three dissimilar subunits designated α, γ, and β. Mouse NGF reversibly dissociates into its component subunits at pH values lower than 5 or greater than 8. The 7S protein complex is in fast equilibrium wiih the free subunits. A quantitative determination of 7S NGF based on the reversible dissociation of the molecule into its subunits is reported here. The basis for this procedure is the addition of [¹²⁵I]α subunit which competes with the native alpha in the 7S complex. The level of NGF present in a sample can be measured in terms of the displacement of [¹²⁵I]α from the α to the NGF position in a linear sucrose gradient. Measurements are sensitive to 3.5ng of NGF, linear, and specific for the NGF molecule. This exchange is unaffccted by competing unrelated growth factors and inhibiting enzymes. Its specificity was checked by the standard bioassay and by radioimmunoassay. In addition, the assay technique overrides masking by biological inhibitors and/or by the presence of antibodies directed against the IgG contaminant in murine 75 NGF.     

Developmental profile of three enolase isozymes in rat brain determination from one-cell embryo to adult brain

Levels of three enolase isozymes (αα, αγ and γγ) were determined in rat tissues from one-cell embryo to adult brain with a sensitive enzyme immunoassay system. Each embryo of the early stage (gestational age, 0–3 days) contained about 5 × 10^?17 mol of αα enolase. The nervous system-specific αγ and γγ enolases would be detected in the embryos of 6–8 days, which contain no histologically recognizable neurones. The 8-day embryos contained 4.3 × 10^?17 and 3.4 × 10^?16 mol of αγ and γγ enolases. Amounts of all the three enolases were increased with growth of the embryo. The nervous system-specific enolases (αγ and γγ) in the brain kept increasing until 1–2 months of postnatal age, whereas the αα enolase level in the brain was relatively constant after the 15-day embryo through the adult rat.     

IgG1 and IgG2 antibody responses to Plasmodium falciparum exoantigens correlate inversely and positively, respectively, to the number of malaria attacks

Abstract In Manarintsoa, near Antananarivo, Madagascar, two groups of patients were defined in terms of malaria clinical immune status: Group MA⁺ consisted of 36 patients who suffered from between one to four malaria attacks (MA) during the 20-week study, and Group MA⁻ who comprised of 48 persons who did not have any malaria attacks during this time. In group MA⁺, IgM and IgG antibody levels to Plasmodium falciparum exoantigens (E-Ag) were inversely related to the number of malaria attacks. The level of IgM antibodies were significantly higher in group MA⁺. In contrast, IgG, IgG1, IgG2, IgG3 and IgG4 antibodies to E-Ag were significantly higher in group MA⁻. The level of IgG1 antibodies was inversely correlated, and IgG2 antibodies were positively correlated to the number of malaria attacks.     

Highly Sensitive Immunoassay for Rat Brain-Type Creatine Kinase: Determination in Isolated Purkinje Cells

Ultrasensitive enzyme immunoassay method for the measurement of rat brain-type creatine kinase BB (CK-BB) was developed by use of purified antibodies specific to the B subunit of creatine kinase. The antibody immunoglobulin G was purified with immunoaffinity chromatography of the antiserum raised in rabbits by injecting the purified rat CK-BB. The assay system consisted of polystyrene balls with immobilized antibody F(ab')2 fragments and the same antibody Fab' fragments labeled with beta-D-galactosidase from Escherichia coli. The assay was specific to the B subunit of CK (CK-B), showing about 10% cross-reactivity with CK-MB, but it did not cross-react with CK-MM and neuron-specific gamma gamma enolase. The minimum detection limit of the assay was 0.1 pg or 1 amol CK-BB, being sufficiently sensitive for the measurement of CK-B contents in the isolated Purkinje cell bodies at the level of single cells. The average content of CK-B in a single Purkinje cell was 1.64 pg. The CK-B concentration in rat cerebellum (about 22 micrograms/mg protein) was about twofold higher than that (about 13 micrograms/mg protein) in the cerebrum. High levels (greater than 5 micrograms/mg protein) of CK-B were also found in the peripheral tissues such as gastrointestinal tract and urinary bladder, all of which are composed of smooth muscle. Immunohistochemical localization of CK-B antigens in the CNS revealed that the antigens is distributed not only in the neurons but also in the glial cells.     

Tissue distribution, developmental profiles and effect of denervation of enolase isozymes in rat muscles

The tissue distribution of muscle-type alpha beta and beta beta enolases in rats were determined with the sandwich-type enzyme immunoassay method which utilized the purified antibodies specific to the alpha and to the beta subunit of enolase, and beta-D-galactosidase from Escherichia coli as label. All the tissues examined contained detectable levels of both alpha beta and beta beta enolases. The beta beta enolase was found at high levels in the skeletal muscle tissues (tongue, esophagus, diaphragm and leg muscles) and in the cartilages (xipoid process and auricular cartilage). The alpha beta enolase was distributed at a relatively high concentration in the heart and in the above-mentioned tissues. The beta beta enolase in the leg muscles, diaphragm and tongue was present on the day of birth at a concentration higher than that of the alpha alpha and alpha beta enolases, and its concentration further increased in a manner apparently related to the functional state of each tissue. Denervation of the leg muscles by cutting the sciatic nerve in adult rats resulted in a drastic change in the isozymes profile. The concentration of beta beta enolase in the tibialis anterior gastrocnemius lateralis and extensor digitorum longus (about 800 pmol/mg protein) decreased to about a half in a few weeks after denervation. In contrast, the concentrations of alpha alpha (2 pmol/mg) and alpha beta (80 pmol/mg) usually showed a slight increase by the treatment (alpha alpha, 7 pmol/mg; alpha beta, 100 pmol/mg after 2 weeks). As compared with these three muscles, the soleus had normally a low enolase level and the effect of denervation was less drastic. These results seem to suggest that the concentration of beta beta enolase is closely correlated with the functional state of the muscle tissue.     

Specificity of rabbit antisera against the rough lipopolysaccharide of Salmonella minnesota strain R7 (chemotype Rd1P−)

Abstract Rabbit polyclonal antibodies against the lipopolysaccharide (LPS) of the Rd₁P⁻ mutant strain R7 of Salmonella minnesota were serologically characterized using R7 LPS, dephosphorylated LPS, deacylated LPS, deacylated, dephosphorylated and reduced LPS, and synthetic partial structures. The latter comprised partial structures of the core region of Rd₁P⁻ LPS bound to the β 1 → 6-linked glucosamine disaccharide with two amide-linked 3-hydroxytetradecanoic acid residues or artificial glycoconjugates comprised of the synthetic oligosaccharides coupled to bovine serum albumin. Using a passive hemolysis and an enzyme immunoassay, absorption and inhibition experiments, the antibody specificities present could be determined. One group of antibodies required components of the core region and the phosphorylated glucosamine disaccharide of the lipid A moiety for binding. The majority of phosphate-independent antibodies was directed against the trisaccharide l -glycero-α- d -manno-heptopyranose(1 → 3)- l -glycero-α- d -manno-heptopyranose(1 → 5)3-deoxy- d -manno-octulosonic acid. Antibodies against the 1 → 3- and 1 → 7-linked heptose disaccharides and against a single heptose were also detected, however, with low titers. No antibodies were found which required the presence of fatty acids.     

Solid-Phase Immunoassays for Quantitation of Antibody to Bovine White Matter Proteolipid Apoprotein

Abstract: Two solid-phase immunoassays have been developed for quantitation of antibodies to bovine white matter proteolipid apoprotein. Conditions were established for optimal specific antibody binding. Water-soluble proteolipid apoprotein was bound to microtiter plates and plates were incubated with test serum. Goat anti-rabbit IgG conjugated with horeseradish peroxidase was used as the second antibody for an enzyme-linked immunospecific assay and ¹²⁵I-labeled protein A for a radioimmunoassay. Both procedures have been used to follow the time course of anti-proteolipid antibody production in rabbits and to compare different immunization protocols.     

Human Brain-Type Glycogen Phosphorylase: Quantitative Localization in Human Tissues Determined with an Immunoassay System

Abstract: Glycogen phosphorylase (EC 2.4.1.1) from human brain tissue was purified to homogeneity. Antisera were developed in rabbits with purified phosphorylase as the immunogen. Antibodies were first affinity-purified with a column of brain phosphorylase-coupled Sepharose, and then the antibody fraction was adsorbed with a column of muscle phosphorylase-coupled Sepharose to remove antibodies reactive also with muscle phosphorylase. By using the specific antibodies, a sandwich-type immunoassay system for measurement of brain phosphorylase was prepared. The assay system consisted of polystyrene balls with immobilized antibrain phosphorylase F(ab')₂ fragments and the same antibody Fab' fragments labeled with β-D-galactosidase from Escherichia coli. The assay was sensitive and specific to the brain phosphorylase. The minimum detection limit of the assay was 0.1 ng/assay tube, and the cross-reactivity of the assay with muscle phosphorylase was <1%. Tissue concentrations of immunoreactive brain-type phosphorylase were estimated. The phosphorylase was present in the heart at as high a level as in the brain. The immunoreactivity for brain phosphorylase was distributed widely at a significant concentration in various peripheral tissues, such as the digestive tract, bladder, aorta, liver, and testis. Immunohistochemical localization of brain phosphorylase in the CNS revealed that the enzyme is present in most astrocytes and amyloid bodies, as well as in some neurons in the cerebral cortex and Golgi cells in the cerebellar cortex.     

A 30-kDa Protein in the Surface Complex and Flagella of Euglena has Protein Kinase Activity

ABSTRACT A protein kinase (PK) was partially purified from NaCl extracts of the cell surface complex of Euglena using DEAE-cellulose chromatography. Tubulins extracted either from flagella or from the cell surface complexes of Euglena were readily phosphorylated when incubated with [γ-³²P]-ATP and the PK. Protein kinase activity was augmented with 5 mM Mn²⁺ or Mg² and was inhibited or had greatly reduced activity with 5 mM Ca²⁺, Co^2-, Cu²⁺ or Zn²⁺. Incorporation was much lower when [γ-³²P]-GTP was the phosphate donor. Serine and threonine were the major radiolabeled phosphoamino acids in tubulins; label was also found in phosphotyrosine. Alpha-tubulin solubilized from flagella was a relatively poor substrate for the PK, but a Euglena α-tubulin cDNA overexpressed as a Trx-fusion protein incorporated [γ-³²P]-ATP into serine and threonine when incubated with cell surface extracts. Alpha- and β-tubulins from cell surface complexes were equally good substrates for the PK. No incorporation was observed in intact microtubules either from the cell surface complex or from isolated flagella. In-gel assays identified a polypeptide of about 30 kDa that phosphorylated tubulins in extracts of both flagella and the cell surface complexes, and dephosphorylated casein was a competitive substrate for the partially purified kinase. In vivo incubation with [³²P]-orthophosphate produced numerous radiolabeled bands in acrylamide gels of NaCl extracts of the cell surface complex, but none of these bands could be positively related to tubulins extracted from surface complex microtubules.     

Phloretin as an Antagonist of Prostaglandin F2α Receptor in Cultured Rat Astrocytes

Abstract: The effect of phloretin on prostaglandin (PG) F_2α-induced phosphoinositide hydrolysis and elevation of intracellular Ca²⁺ concentration was examined in cultured rat astrocytes. Phloretin inhibited PGF_2α (1 μ M )-induced phosphoinositide hydrolysis in a concentration-dependent manner with an IC₅₀ value of 16 μ M . The inhibitory action of phloretin was specific for PGs. The addition of increasing concentrations of phloretin caused progressive shifts of the dose-response curves of PGF_2α to the right. In digitoninpermeabilized astrocytes, phloretin (100 μ M ) inhibited the stimulation induced by PGF_2α (1 μ M ) plus GTPγS (50 μ M ) without affecting that induced by GTPγS alone. PGF_2α at 1 μ M transiently increased astrocytic intracellular Ca²⁺ concentration in 39% of the cells tested. The response was completely blocked by 100 μ M phloretin and the calcium response recovered again after washing out phloretin. These results suggest that phloretin is an antagonist of PGF_2α receptor linked to phospholipase C in astrocytes.     

Protein and Molecular Characterization of Hippocampal Protein Kinase C in C57BL/6 and DBA/2 Mice

Abstract: Measures of protein kinase C (PKC) in C57BL/6 and DBA/2 mice using [³H]phorbol 12,13-dibutyrate binding to tissue homogenates and brain slices demonstrated that levels of activated, membrane-bound PKC were greater in C57BL hippocampus than in DBA hippocampus. Western analysis of α-, β_I-, β_II-, γ-, δ-, and ɛ-PKC using isozyme-specific antibodies indicated that the increase observed in C57BL hippocampus was due primarily to the γ-PKC protein, whose immunoreactivity was greater in the membrane-bound fraction in C57BL mice. Characterization of α-, β_I,II-, and γ-PKC hippocampal mRNA using northern analysis and isozyme-specific nucleic acid probes did not reveal differences between the strains in levels of gene expression. Restriction fragment length polymorphisms (RFLP) were found in the α- and γ-, but not β-PKC genomic DNA. The RFLPs appeared to be located in noncoding, nonregulatory regions of the gene. These findings suggest that the γ-PKC isozyme is largely responsible for the PKC activity difference in C57BL and DBA hippocampus that has been reported previously and may be closely associated with differences in learning ability observed in these strains.     

Molecular Determinants of General Anesthetic Action: Role of GABAA Receptor Structure

Abstract: Using receptors expressed from mouse brain mRNA in Xenopus oocytes, we found that enhancement of type A γ-aminobutyric acid (GABA_A) receptor-gated Cl⁻ channel response is a common action of structurally diverse anesthetics, suggesting that the GABA_A receptor plays an important role in anesthesia. To determine if GABA_A receptor subunit composition influences actions of anesthetics, we expressed subunit cRNAs in Xenopus oocytes and measured effects of enflurane on GABA-activated Cl⁻ currents. Potentiation of GABA-activated currents by enflurane was dependent on the composition of GABA_A receptor protein subunits; the order of sensitivity was α₁β₁ > α₁β₁γ_2s=α₁β₁γ_2L > total mRNA. The results suggest that anesthetics with simple structures may act on the GABA_A receptor protein complex to modulate the Cl⁻ channel activity and provide a molecular explanation for the synergistic clinical interactions between benzodiazepines and general anesthetics.     

Monoclonal Antibodies to the Human γ2 Subunit of the GABAA/Benzodiazepine Receptors

Abstract: The large intracellular loop (IL) of the γ₂ subunit of the cloned human γ-aminobutyric acid_A (GABA_A) receptor (γ₂IL) was expressed in bacteria as glutathione- S -transferase and staphylococcal protein A fusion proteins. Mice were immunized with the fusion proteins (one protein per animal), and monoclonal antibodies were obtained. Six monoclonal antibodies reacted with the γ₂IL moiety of the fusion proteins. Three of these monoclonal antibodies also immunoprecipitated a high proportion of the GABA_A/benzodiazepine receptors from bovine and rat brain and reacted with a wide 44,000–49,000-M_r peptide band in immunoblots of affinity-purified GABA_A receptors. These monoclonal antibodies are valuable reagents for the molecular characterization of the GABA_A receptors in various brain regions.     

Rice alpha-mannosidase digesting the high mannose glycopeptide of glutelin

α -Mannosidase (EC 3.2.1.24) from rice dry seeds was purified to homogeneity. Optimum pH and K_m for pNP- α -Man hydrolysis were pH 4.3–4.5 and 1.04 m M , respectively. The enzyme digested mannobioses such as Man α -1,2Man, Man α -1,6Man, Man α -1,3Man but Man α -1,4Man. Zn²⁺ ion was required for the activity, whereas EDTA and swainsonine inhibited the activity by 80 and 96%, respectively. The rice storage protein, glutelin was prepared and its basic subunits were shown to have high mannose-type sugar chains by two-dimensional mapping using NH₂-P and C₁₈ silica columns. They were Man₉GlcNAc₂, Man₈GlcNAc₂, Man₇GlcNAc₂, Man₆GlcNAc₂ and Man₅GlcNAc₂. All these oligosaccharides were digested by the purified α -mannosidase, and Man-GlcNAc₂ and mannose were formed. Glycopeptides, having these high mannose-type sugar chains, could also be digested by the α -mannosidase. Subunits were prepared from glutelin basic subunit and the richest subunit among them, subunit 2 (isoform 2), was digested by the α -mannosidase. Isoform 2 was digested by V8 protease only partially and slowly. However, isoform 2, pre-treated with the α -mannosidase, was rapidly and completely digested by V8 protease.