Perineuronal nets labeled by monoclonal antibody VC1.1 ensheath interneurons expressing parvalbumin and calbindin in the rat amygdala.

Perineuronal nets (PNNs) are specialized condensations of extracellular matrix that ensheath particular neuronal subpopulations in the brain and spinal cord. PNNs regulate synaptic plasticity, including the encoding of fear memories by the amygdala. The present immunohistochemical investigation studied PNN structure and distribution, as well as the neurochemistry of their ensheathed neurons, in the rat amygdala using monoclonal antibody VC1.1, which recognizes a glucuronic acid 3-sulfate glycan associated with PNNs in the cerebral cortex. VC1.1+ PNNs surrounded the cell bodies and dendrites of a subset of nonpyramidal neurons in cortex-like portions of the amygdala (basolateral amygdalar complex, cortical nuclei, nucleus of the lateral olfactory tract, and amygdalohippocampal region). There was also significant neuropilar VC1.1 immunoreactivity, whose density varied in different amygdalar nuclei. Cell counts in the basolateral nucleus revealed that virtually all neurons ensheathed by VC1.1+ PNNs were parvalbumin-positive (PV+) interneurons, and these VC1.1+/PV+ cells constituted 60% of all PV+ interneurons, including all of the larger PV+ neurons. Approximately 70% of VC1.1+ neurons were calbindin-positive (CB+), and these VC1.1+/CB+ cells constituted about 40% of all CB+ neurons. Colocalization of VC1.1 with Vicia villosa agglutinin (VVA) binding, which stains terminal N-acetylgalactosamines, revealed that VC1.1+ PNNs were largely a subset of VVA+ PNNs. This investigation provides baseline data regarding PNNs in the rat which should be useful for future studies of their function in this species.

Gut microbiota regulates NKG2D ligand expression on intestinal epithelial cells.

Intestinal epithelial cells (IECs) are one of a few cell types in the body with constitutive surface expression of natural killer group 2 member D (NKG2D) ligands, although the magnitude of ligand expression by IECs varies. Here, we investigated whether the gut microbiota regulates the NKG2D ligand expression on small IECs. Germ-free and ampicillin-treated mice were shown to have a significant increase in NKG2D ligand expression. Interestingly, vancomycin treatment, which propagated the bacterium Akkermansia muciniphila and reduced the level of IFN-γ and IL-15 in the intestine, decreased the NKG2D ligand expression on IECs. In addition, a similar increase in A. muciniphila and a decreased NKG2D ligand expression was seen after feeding with dietary xylooligosaccharides. A pronounced increase in NKG2D ligand expression was furthermore observed in IL-10-deficient mice. In summary, our results suggest that the constitutive levels of NKG2D ligand expression on IECs are regulated by microbial signaling in the gut and further disfavor the intuitive notion that IEC NKG2D ligand expression is caused by low-grade immune reaction against commensal bacteria. It is more likely that constitutively high IEC NKG2D ligand expression is kept in check by an intestinal regulatory immune milieu induced by members of the gut microbiota, for example A. muciniphila.

Substituent-specific antibody against glucuronoxylan reveals close association of glucuronic acid and acetyl substituents and distinct labeling patterns in tree species.

Immunolabeling can be used to locate plant cell wall carbohydrates or other components to specific cell types or to specific regions of the wall. Some antibodies against xylans exist; however, many partly react with the xylan backbone and thus provide limited information on the type of substituents present in various xylans. We have produced a monoclonal antibody which specifically recognizes glucopyranosyl uronic acid (GlcA), or its 4-O-methyl ether (meGlcA), substituents in xylan and has no cross-reactivity with linear or arabinofuranosyl-substituted xylans. The UX1 antibody binds most strongly to (me)GlcA substitutions at the non-reducing ends of xylan chains, but has a low cross-reactivity with internal substitutions as well, at least on oligosaccharides. The antibody labeled plant cell walls from both mono- and dicotyledons, but in most tissues an alkaline pretreatment was needed for antibody binding. The treatment removed acetyl groups from xylan, indicating that the vicinity of glucuronic acid substituents is also acetylated. The novel labeling patterns observed in the xylem of tree species suggested that differences within the cell wall exist both in acetylation degree and in glucuronic acid content.

A semi-invariant Vα10+ T cell antigen receptor defines a population of natural killer T cells with distinct glycolipid antigen-recognition properties.

Type I natural killer T cells (NKT cells) are characterized by an invariant variable region 14-joining region 18 (V(α)14-J(α)18) T cell antigen receptor (TCR) α-chain and recognition of the glycolipid α-galactosylceramide (α-GalCer) restricted to the antigen-presenting molecule CD1d. Here we describe a population of α-GalCer-reactive NKT cells that expressed a canonical V(α)10-J(α)50 TCR α-chain, which showed a preference for α-glucosylceramide (α-GlcCer) and bacterial α-glucuronic acid-containing glycolipid antigens. Structurally, despite very limited TCRα sequence identity, the V(α)10 TCR-CD1d-α-GlcCer complex had a docking mode similar to that of type I TCR-CD1d-α-GalCer complexes, although differences at the antigen-binding interface accounted for the altered antigen specificity. Our findings provide new insight into the structural basis and evolution of glycolipid antigen recognition and have notable implications for the scope and immunological role of glycolipid-specific T cell responses.

Evaluation of a new immunoassay for urinary ethyl glucuronide testing.

AIMS: The minor ethanol metabolite ethyl glucuronide (EtG) is used as a sensitive and specific test for recent alcohol consumption with clinical and forensic applications. This study evaluated a new enzyme immunoassay (DRI-EtG EIA, Microgenics Corp.) for determination of the EtG concentration in urine samples. METHODS: Evaluation was done using the kit calibrators (range 0-5.0 mg/L) and controls, an external quality control sample, and 400 consecutive urines from the routine samples pool. The measuring range was extended by dilution of urine samples with saline. Comparison was made with an established liquid chromatographic-mass spectrometric (LC-MS) method. RESULTS: The intra- and inter-assay imprecision of the DRI-EtG EIA in the range 0.4-2.5 mg/L was <2.2% (coefficient of variation, CV), and the limit of quantification was <0.1 mg/L. For the 400 urine samples, the EtG concentrations obtained using the DRI-EtG EIA (mean 24.2 mg/L, range 0-830) and LC-MS method (mean 22.4 mg/L, range 0-959) showed an overall good and statistically significant agreement (r2 = 0.931, P < 0.0001). CONCLUSIONS: These results indicated a high level of accuracy and selectivity of the DRI-EtG EIA for quantification of urinary EtG. In the absence of a commonly accepted cut-off limit for urinary EtG, a threshold of 0.5 mg/L (2.2 mumol/L) is proposed, to obtain a high sensitivity but avoid positive results due to unintentional ethanol exposure.

A (1-->3,6)-beta-d-galactosyl epitope containing uronic acids associated with bioactive pectins occurs in discrete cell wall domains in hypocotyl and root tissues of flax seedlings.

We have used a well-characterized antibody specific for an epitope consisting of (1-->3,6)-beta-d-galactosyl residues with terminal glucuronic or 4-O-methylglucuronic acids of a bioactive pectin and immunocytochemistry to investigate its secretion and wall distribution in the hypocotyl and root tissues of flax seedlings. Our results show that this antigenic epitope is associated with flax pectins and is expressed by all the cells of the hypocotyl and root tissues. In the hypocotyl, it is abundant in the primary wall of epidermal cells as well as in the secondary wall of fiber cells, and is relatively less abundant in parenchyma cell walls. In contrast, the epitope is not detected in the middle lamellae and cell junction regions. In the root tip cells, immunogold electron microscopy shows that the cell walls of peripheral, columella, meristematic, cortical, and epidermal cells contain significant amounts of this epitope and that the distribution patterns are distinct. Together, these findings show that the antigenic epitope occurs in discrete domains of the wall implying a strict spatial regulation of the epitope-containing molecules. The results also show that, in root cells, the epitope is present within Golgi cisternae and is predominantly assembled in the trans and the trans-Golgi network compartments.

Heterogeneity of antibody specificity in Taiwanese patients with polyneuropathy and IgM paraproteinemia.

About half of the Caucasian patients with chronic polyneuropathy and IgM paraproteinemia show serum anti-myelin-associated glycoprotein (MAG) and anti-sulfoglucuronosyl glycosphingolipid (SGGLs) activities. These antibody activities have been demonstrated to react with a carbohydrate epitope known as the HNK-1 or sulfoglucuronic acid (SGA) epitope. However, in Asian populations the occurrence of serum anti-SGA activities has been reported to be relatively rare. We investigated 5 cases of chronic polyneuropathy with IgM paraproteinemia from Taiwan and found that 3 of them had high-titer serum anti-SGA (SGGL/MAG) antibody activities. The clinical symptoms of these 3 patients were consistent with sensory dominant polyneuropathy with a severer involvement of the lower limbs than of the upper limbs. Electromyography and nerve conduction studies revealed severe sensory nerve involvement (no response in 3 cases) and moderate slowing of motor conduction velocity (MCV) without conduction block. The decrease in MCV correlated well with anti-SGA antibody titer (less than 30 m/s with the titration of 1:12, 800, normal 55-60 m/s). Pathological findings showed active demyelinating polyneuropathy with myelin ovoid and myelinated fiber loss. Our data suggest that anti-SGGL antibody activities may not be very rare among Asian populations. Additionally, there seems an intriguing possibility that the titer of this antibody correlates with the severity of peripheral nerve involvement in patients of demyelinating polyneuropathy with IgM paraproteinemia.

Rat serum albumin modified by diflunisal acyl glucuronide is immunogenic in rats.

Acyl glucuronide metabolites of carboxylic acid drugs such as the salicylate derivative diflunisal (DF) have been shown to react with proteins in vitro and in vivo to produce covalent adducts. Such attachment of foreign compounds to endogenous molecules could be associated with toxic and/or immune consequences. In this study we have injected rats with rat serum albumin (RSA) modified (a) by DF using a carbodiimide reagent (-->DF-RSA-I, 4.9 micrograms DF/mg RSA) and (b) by incubation with DF acyl glucuronide (DAG) and its rearrangement isomers (iso-DAG) (-->DF-RSA-II, 0.34 micrograms DF/mg RSA). All of the six rats injected with DF-RSA-I produced antibodies reactive with DF-modified keyhole limpet hemocyanin (KLH), the coating protein used in the ELISA. Three out of six animals injected with DF-RSA-II generated similar antibodies. Cross-reactivity with other non-steroidal anti-inflammatory drugs (NSAIDs) such as naproxen and ketoprofen (as the free drugs) was not observed. This study shows that a self protein covalently modified by incubation with DAG and iso-DAG is immunogenic in rats. The data thus support the hypothesis that covalent modification of macromolecules by acyl glucuronide metabolites of acidic drugs in vivo can lead to the production of circulating antibodies which may be involved in aberrant immune responses such as drug hypersensitivity.

Structure/function studies of QS-21 adjuvant: assessment of triterpene aldehyde and glucuronic acid roles in adjuvant function.

QS-21, a purified Quillaja saponaria saponin immunologic adjuvant, contains two functional groups that we hypothesized to be involved in the adjuvant mechanism of action through charge or Schiff base interaction with a cellular target. Derivatives, prepared by modification of these sites, were prepared and tested for their ability to augment the immunogenicity of the antigen ovalbumin (OVA) in C57BL/6 mice. QS-21 derivatives that were modified at the carboxyl group on an anionic sugar, glucuronic acid, retained adjuvant activity for antibody stimulation, inducing relative increases in antibody titers similar to those induced by QS-21, although the minimum adjuvant dose required for this stimulation was increased several fold relative to the dose of unmodified QS-21. One of these derivatives also retained significant activity for induction of OVA-specific cytotoxic T-lymphocytes. In contrast, QS-21 derivatives modified at an aldehyde on the triterpene did not show adjuvant activity for antibody stimulation or for induction of cytotoxic T-lymphocytes, suggesting that this functional group may be involved in the adjuvant mechanism.

Determination of the HNK-1 epitope (3-sulphated glucuronic acid) in intact chondroitin sulphates by ELISA. Application to squid skin proteoglycans and their oversulphated carbohydrate structures.

The reactivity of the HNK-1 monoclonal antibody to chondroitin sulphates and derived disaccharides was studied using an ELISA inhibition test. The antibody readily reacted with its specific epitope (3-sulphated glucuronic acid) in intact chondroitin sulphates as well as with the equivalent oversulphated delta 4-disaccharides obtained by chondroitinase digestion and identified as sulphated at C-3 of the hexuronate. It is showed that by using the oversulphated delta 4-disaccharides as standards in an ELISA inhibition test, the amount of 3-sulphated glucuronic acid can be estimated also in the polymer preparations. When applying this ELISA test to the PG populations isolated from squid skin, most of the oversulphation seen in HPLC analyses of these preparations was found to be associated with 3-sulphation of the glucuronic acid.

Presence of the HNK-1 epitope (3-sulfoglucuronic acid) on oligosaccharides from squid skin chondroitin proteoglycans and degradation of proteoglycans by proteolytic enzymes.

Using competitive ELISA it was found that chondroitin proteoglycans from the skin of squid, which is a primitive organism, are reactive with the HNK-1 monoclonal antibody and that all HNK-1 epitopes of the proteoglycans were present only on their oligosaccharides. Although of the presence of appreciable amounts of glycine, serine and glutamic acid and the absence of hydroxyproline, the proteoglycans were degraded by collagenase and other proteolytic enzymes.

Evidence for the expression of a glucuronic acid-containing epitope in the central nervous system of two insects (Calliphora vicina, Diptera; Tenebrio molitor, Coleoptera).

The monoclonal antibody CAF-I recognises a glucuronic acid-containing epitope present on various acidic glycosphingolipids of Calliphora vicina. Immunohistochemistry was performed on CAF-I-labelled whole-mount preparations of the central nervous system, visualised by peroxidase-conjugated second antibody. A differential, temporal and spatial expression of this epitope in metamorphosing nervous tissue was outlined, that apparently characterises homologous neuronal populations in two phylogenetically distinct holometabolous insects, i.e. Calliphora vicina and Tenebrio molitor. Implications for a functional interpretation of insect glyco(sphingo)lipids in tissue development are discussed.

Preparation and characterization of antibodies against a sulfated glucuronic acid-containing glycosphingolipid.

In some patients with demyelinating neuropathy there are immunoglobulin M paraproteins that react with carbohydrate determinants shared by myelin-associated glycoprotein (MAG) and two peripheral nerve acidic glycolipids, termed sulfoglucuronosylglycosphingolipids (SGGLs). To study the antigenicity of these glycolipids, we immunized three New Zealand white rabbits with sulfoglucuronosylparagloboside (SGPG), a major SGGL in peripheral nerve, emulsified in Freund's complete adjuvant and keyhole limpet hemocyanin. All three rabbits inoculated with SGPG showed weight loss and mild weakness, predominantly in their hind feet, 2-5 weeks postinoculation (PI). Two of the three rabbits again showed moderate weakness 3 and 8 months PI, respectively. Electrophysiological studies demonstrated a slowed nerve conduction velocity in the sciatic nerve. Anti-SGPG antibody titers in sera were detected at dilutions of 1:1,000 to 1:2,500 by an enzyme-linked immunosorbent assay. Although all three rabbit sera reacted with SGGLs, two reacted with a desulfated form of SGPG and the other did not, suggesting a fine heterogeneity in antigenic specificity. As with sera from patients with demyelinative paraproteinemia, all rabbit sera reacted with MAG in human CNS and PNS myelin. They also reacted with MAG from bovine CNS myelin as well as several low-molecular-weight glycoproteins in bovine peripheral nerve myelin. Thus, we demonstrated that the rabbit antisera generated against SGPG have the same or similar antigenic specificity as those of the anti-MAG M-proteins from patients with neuropathy. The results suggest that an autoimmune response against the sulfoglucuronosyl residue may participate in the immunopathogenesis of this type of neuropathy.

Enhanced binding of capsular polysaccharides of Cryptococcus neoformans to polystyrene microtitration plates for enzyme-linked immunosorbent assay.

A sensitive enzyme-linked immunosorbent assay (ELISA) to measure antibodies against capsular polysaccharide was developed, based on the enhanced binding of polysaccharide to polystyrene microtitration plates. The wells of the microtitration plate were primed with an adipic acid dihydrazide derivative of bovine serum albumin (AH-BSA) (100 micrograms/mL, 0.01 M NaPO4-0.14 M NaCl, pH 7.2 (PBS]. Capsular polysaccharide, the glucuronoxylomannan of Cryptococcus neoformans serotype A, was oxidized with NaIO4 for 5 min; the reaction was then quenched with ethylene glycol. The partially oxidized polysaccharide was dialyzed vs. PBS, and its concentration was adjusted to 50 micrograms/mL with PBS. This solution (100 microL/well) was covalently bound to the AH-BSA primed microtitration plates through formation of a Schiff base between the hydrazide group on the AH-BSA and the aldehyde groups on the polysaccharide. Antimouse IgG-alkaline phosphatase conjugate was used in an indirect ELISA to measure captured murine monoclonal antibodies directed against glucuronoxylomannan. Mean absorbances, after 15 min, were 0.13 in negative control wells, and greater than 0.7 in test wells. No intermediate steps were required to block nonspecific binding of antibody.

A monoclonal antibody that specifically recognizes a glucuronic acid 2-sulfate-containing determinant in intact chondroitin sulfate chain.

Monoclonal antibodies produced against chick embryo limb bud proteoglycan (PG-M) were selected for their ability to recognize determinants on intact chondroitin sulfate chains. One of these monoclonal antibodies (IgM; designated MO-225) reacts with PG-M, chick embryo cartilage proteoglycans (PG-H, PG-Lb, and PG-Lt), and bovine nasal cartilage proteoglycan, but not with Swarm rat chondrosarcoma proteoglycan. The reactivity of PG-H to MO-225 is not affected by keratanase digestion but is completely abolished after chondroitinase digestion. Competitive binding analyses with various glycosaminoglycan samples indicate that the determinant recognized by MO-225 resides in a D-glucuronic acid 2-sulfate(beta 1----3)N-acetylgalactosamine 6-sulfate disaccharide unit (D-unit) common to antigenic chondroitin sulfates. A tetrasaccharide trisulfate containing D-unit at the reducing end is the smallest chondroitin sulfate fragment that can inhibit the binding of the antibody to PG-H. Decreasing the size of a D-unit-rich chondroitin sulfate by hyaluronidase digestion results in progressive reduction in its inhibitory activity. The results suggest that the epitope has a requirement for a long stretch of a disaccharide-repeating structure for a better fit to the antibody.

Sulfated glucuronyl glycolipids reacting with anti-myelin-associated glycoprotein monoclonal antibodies including IgM paraproteins in neuropathy: species distribution and partial characterization of epitopes.

It was recently established that anti-myelin associated glycoprotein (MAG) IgM paraproteins associated with neuropathy and a substantial number of experimentally produced rat and mouse monoclonal antibodies that react with MAG (e.g. HNK-1) also bind to some sulfated glucuronic acid-containing sphingoglycolipids of human peripheral nerve. A species study revealed that these glycolipids could be detected readily by TLC overlay experiments in the acidic glycolipid fractions from human, monkey, bovine, cat and dog peripheral nerve. The glycolipids were also present in the nerves of rat, mouse, rabbit, guinea pig and chicken, but their concentration was about an order of magnitude lower. These antigenic glycolipids were present in the purified myelin fraction from cat nerve, but their level was not enriched over that in whole homogenate. Partial characterization of the epitopes in the glycolipids was accomplished by comparing binding of the human and experimental monoclonal antibodies to sulfated glucuronyl paragloboside (SGPG), to the desulfated lipid (GPG), and to the methyl ester of the desulfated lipid (MeGPG). All of the human, mouse and rat antibodies reacted with the intact SGPG, but none exhibited binding to MeGPG indicating that either the sulfate or the free carboxyl group on SGPG was required for reactivity. Five out of 11 human IgM paraproteins retained partial and variable reactivity with GPG showing that the sulfate was not absolutely required for binding, while the other 6 did not react with GPG. These results demonstrate idiotypic heterogeneity among the IgM paraproteins. Only 1 of 14 monoclonal antibodies produced experimentally in mice or rats retained reactivity with GPG.(ABSTRACT TRUNCATED AT 250 WORDS)