Isolation and characterization of a 230 kDa protein (p230) specifically expressed in fetal brains: its involvement in neurite outgrowth from rat cerebral cortex neurons grown on monolayer of astrocytes

By screening with monoclonal antibodies (mAbs) raised against growth cone membrane fraction from fetal porcine brains, we have identified a 230 kDa antigen, termed p230. Western blot analysis of extracts from various tissues demonstrated that p230 is specifically expressed in brains, in which its expression is temporally restricted; it was especially prominent in the embryonic and the early postnatal stage, and decreased to subdetectable levels in the adult brain. Further characterization of p230 revealed that it is a peripherally-membrane associated, cell surface protein produced by astrocytes. Neurite outgrowth of E18 rat cerebral cortex neurons cultured on a monolayer of astrocytes was significantly reduced in the presence of anti-p230 polyclonal antibody. Partial amino acid sequences of p230 purified from fetal porcine brains were highly homologous to an extracellular matrix protein, tenascin-C. These lines of evidence suggest that p230, a tenascin-C-like molecule present in fetal porcine brains, plays important roles during early brain development, particularly in growth cone guidance.     

A conformation- and phosphorylation-dependent antibody recognizing the paired helical filaments of Alzheimer's disease

Hyperphosphorylated tau (PHF-tau) is the major constituent of paired helical filaments (PHFs) from Alzheimer's disease (AD) brains. This conclusion has been based largely on the creation and characterization of monoclonal antibodies raised against PHFs, which can be classified in three categories: (a) those recognizing unmodified primary sequences of tau, (b) those recognizing phosphorylation-dependent epitopes on tau, and (c) those recognizing conformation-dependent epitopes on tau. Recent studies have suggested that the antibodies recognizing primary sequence and phosphorylation-dependent epitopes on tau are unable to distinguish between normal adult biopsy tau and PHF-tau. We now present evidence for a new fourth class of monoclonal antibodies recognizing conformation-dependent phosphoepitopes on tau, typified by TG-3, a monoclonal antibody raised to PHFs from AD brain homogenates. Studies using a series of deletional tau mutants, site-directed tau mutants, and synthetic peptides enable the precise epitope mapping of TG-3. Additional studies demonstrate that TG-3 reacts with neonatal mouse tau and PHF-tau but does not recognize adult mouse tau or tau derived from normal human autopsy or biopsy tissue. Further investigation reveals that TG-3 recognizes a unique conformation of tau found almost exclusively in PHFs from AD brains.     

Accessory oculomotor nuclei of man. III. The nuclear complex of the posterior commissure: a Nissl and Golgi study

Galactocerebrosidase (GALC, EC 3.2.1.46) was purified from human urine by a series of hydrophobic affinity column chromatography steps. The activity was enriched 176,000-fold from concentrated urine by only four columns, including octyl Sepharose, hydroxylapatite, butyl Sepharose and ethyl-agarose. The overall recovery was about 20% but only low amounts were obtained due to its low abundance. The estimated final specific activities of several batches were between 1 and 2 mmol/h per mg protein. The final purified fractions were essentially free of other lysosomal enzyme activities. The most pure fractions showed a series of bands between 50 and 53 kDa on sodium dodecylsulfate-polyacrylamide gel electrophoresis which were determined to have identical N-terminal amino acid sequence. In addition, gel filtration of partially purified GALC after disassociation showed one peak of activity estimated to have a molecular mass near 50 kDa. GALC was also purified from human brain and human placenta using the same methods demonstrating the usefulness of this procedure in obtaining GALC from solid human tissues. In addition to the bands migrating near 50 kDa from urine, there were also bands at 80 kDa and 30 kDa in some preparations. By N-terminal sequencing and the use of antipeptide antibodies, the 80 kDa band was demonstrated to have the same N-terminal amino acids as the 50-53 kDa bands. The 30 kDa band had a unique sequence. The relationship between the different molecular weight species remains to be determined. The purification of GALC and the securing of amino acid sequence information will aid in the cloning of the GALC gene. This enzyme is deficient in human patients with Krabbe disease and several animal species.     

A Brugia malayi antigen specifically recognized by infected individuals

Western blot analyses were performed on 444 serum specimens: 40 sera from microfilaraemic individuals, 10 sera from elephantiasis patients, 24 treated individuals, 50 sera from residents of endemic areas without anti-filarial IgG4 antibodies (endemic normals), 20 sera from amicrofilaraemic individuals with high anti-filarial IgG4 antibodies, 200 sera from healthy city-dwellers (non-endemic samples), and 100 sera from soil-transmitted helminth-infected individuals. Phast electrophoresis system was used to electrophorese Brugia malayi soluble adult worm antigen on 10-15% SDS-PAGE gradient gels followed by electrophoretic transfer onto PVDF membranes. Membrane strips were then successively incubated with blocking solution, human sera, and monoclonal anti-human IgG4 antibody-HRP, with adequate washings done in between each incubation step. Luminol chemiluminescence detection was then used to develop the blots. An antigenic band with the MW of approximately 37 kDa was found to be consistently present in the Western blots of all microfilaraemic sera, all amicrofilaraemic sera with high titres of anti-filarial IgG4 antibodies, some treated patients, and some elephantiasis patients. The antigen did not occur in immunoblots of individuals with other helminthic infections, normal endemic individuals, and city dwellers. Therefore the B. malayi antigen of with the MW of approximately 37 kDa demonstrated specific reactions with sera of B. malayi-infected individuals and thus may be useful for diagnostic application.     

Identification of an Escherichia coli protein impurity in preparations of a recombinant pharmaceutical

A host-cell protein impurity found in preparations of recombinant human acidic fibroblast growth factor (aFGF) was identified. Samples of aFGF examined by western blot analysis employing antiserum raised against an Escherichia coli cell lysate contained an immunoreactive protein with a molecular weight of approximately 26,000. The impurity was chromatographically isolated and the N-terminal sequence was determined. Comparing the sequence to a protein database provisionally identified the isolated impurity as the S3 ribosomal protein of E. coli. Monoclonal antibodies recognizing three separate epitopes of S3 confirmed the identity of the impurity in western blots of aFGF samples. The monoclonal antibodies were also used to estimate S3 levels in various preparations of aFGF.     

Purification and characterization of a rat hepatic acetyltransferase that can metabolize aromatic amine derivatives

Rat liver cytosol is capable of N-acetylation of arylamines, O-acetylation of arylhydroxylamines and N,O-acyltransfer of arylhydroxamic acids. The objective of this study was to characterize the enzyme(s) responsible for these reactions. A partially purified acetyltransferase preparation from rat liver cytosol was used to produce five mouse monoclonal IgG1S that bound to acetyltransferase on Western blots and affected one or more of the acetylation reactions. Two immunoaffinity columns were prepared by covalently cross-linking monoclonal antibodies to protein A-Sepharose. The first column permitted recovery of a single, immunoreactive 32 kDa protein that was capable of catalyzing all three reactions, while the second removed all three acetylation activities from a partially purified enzyme preparation and yielded a single, immunoreactive 32 kDa protein on elution. The harsh conditions necessary for elution from the latter column precluded recovery of an active enzyme. Although Western blots from SDS-PAGE at all stages of purification showed a single 32 kDa protein, purification was associated with the production of multiple, immunochemically reactive peptides with higher pIs. Direct enzymatic assays of these immunochemically reactive components after isoelectric focusing on polyacrylamide gels demonstrated that a single 32 kDa, pI 4.5 protein is capable of all three cytosolic acetylation activities. A second 32 kDa protein, pI 4.8, was able to carry out N-acetylation but not N,O-acetyltransfer. Immunoreactive components with pIs > 4.8 that were formed during purification were catalytically inactive. However, isoelectric focusing in solution of cytosolic preparations that had been subjected only to gel filtration gave a single 32 kDa immunoreactive peptide that was capable of all three acetylation reactions. Buffer concentration differentially affected the enzymatic activities of the enzyme, i.e. as a pH 7.4 buffer was decreased from 50 mM sodium pyrophosphate to 2 mM, the ability to N-acetylate arylamines was lowered while the abilities for O-acetylation and N,O-acetyltransfer were unaffected. It has been shown that a single 32 kDa protein carries out all of the acetylation reactions in rat liver cytosol. Although it cannot be ruled out that other similarly sized and closely related enzymes that share antigenic sites are also capable of these acetylation reactions, these studies suggest that instabilities of the major peptide responsible for these activities, as reflected in changes in isoelectric point, may be responsible for changes in the enzymatic potentials of this peptide.     

Atherosclerotic disease in patients undergoing cataract extraction. A nationwide case-control study. The Cataract Patient Outcomes Research Team

The antitumor activity of cytostatic 5'-deoxy-5-fluorouridine (5'-dFUrd) depends on its being converted to 5-fluorouracil (5-FUra) by the enzyme thymidine phosphorylase (dThdPase, EC 2.42.4). We prepared mouse anti-human dThdPase monoclonal antibodies to serve as tools for clinical studies with this drug. Partially purified dThdPase obtained form HCT116 human colon cancer cells grown in athymic mice was used as and antigen for the immunization of mice. Six hybridomas were cloned which produced anti-human dThdPase antibodies, as detected by Western blot analysis with human dThdPase. With these antibodies, we developed an ELISA method sensitive enough to measure dThdPase levels, even in tumor tissue samples weighing as little as 10 mg. In addition, one monoclonal antibody was suitable for immunologically staining the enzyme in tumor tissues. Thus, these anti-human dThdPase monoclonal antibodies could be used to measure levels of the enzyme in tumor cells, which is essential for the activation of 5'-dFUrd.     

Molecular cloning and biochemical characterization of bovine spleen myristoyl CoA:protein N-myristoyltransferase

Myristoyl-CoA:protein N-myristoyltransferase (NMT) is an essential eukaryotic enzyme that catalyzes the cotranslational transfer of myristate to the NH2-terminal glycine residue of a number of important proteins of diverse function. We have isolated full-length cDNA encoding bovine spleen NMT (sNMT). The single long open reading frame of 1248 bp of sNMT specifies a protein of 416 amino acids with a predicted mass of 46,686 Da. The protein coding sequence was expressed in Escherichia coli resulting in the production of functionally active 50-kDa NMT. Deletion mutagenesis showed that the C-terminus is essential for activity whereas up to 52 amino acids can be deleted from the N-terminus without affecting the function. One of the N-terminal deletions resulted in threefold higher NMT activity. Genomic Southern analysis indicated the presence of two strong hybridizing bands with three different restriction enzyme digests suggesting the possibility of two copies of the NMT gene in the bovine genome. RNA blot hybridization analysis of total cellular RNA prepared from bovine brain, heart, spleen, lung, liver, kidney, and skeletal muscle probed with bovine sNMT cDNA revealed a single 1.7-kb mRNA. Western blot analysis of various bovine tissues with human NMT peptide antibody indicated a common prominent immunoreactive band with an apparent molecular mass of 48.5-50 kDa in all tissues. Additional immunoreactive bands were observed in brain (84 and 50 kDa), lung (58 kDa), and skeletal muscle (58 kDa). Activity measurements demonstrated that brain contained the highest NMT activity followed by spleen, lung, kidney, heart, skeletal muscle, pancreas, and liver. It appears therefore that mRNA and protein expression do not correlate with NMT activity, suggesting the presence of regulators of the enzyme activity.     

Distribution of type-I interferon-receptors in human first trimester and term placental tissues and on isolated trophoblast cells

PROBLEM: Type-I interferon (IFN) is the protein recognizing pregnancy in ruminants. Although IFN is secreted in early pregnancy, its role is not still clear in other species. Like other cytokines, IFN exerts its biological functions through specific membrane receptors. We have investigated the potential action of IFN in human pregnancy by studying the distribution of the receptors in the human placenta. METHOD: Reactivity to monoclonal antibodies (mAbs) to the type-I IFN-receptor (R) was analyzed by immunohistochemistry in human placental tissues and in cytospins of first trimester trophoblast cells. RESULTS: Type-I IFN-R immunoreactivity was observed mostly in first trimester villous cytotrophoblasts and in the cytotrophoblast cell columns. Trophoblast in the decidua, the epithelium of the uterine glands, and most of the isolated trophoblast cells were also immunoreactive. CONCLUSION: The expression of type-I IFN-R in the highly proliferating and migrating trophoblast suggests that this cytokine has a role in trophoblast growth and invasion.     

Observations on the prevalence of trypanosomosis in small ruminants, equines and cattle, in relation to tsetse challenge, in The Gambia

Lipoprotein lipase (LPL) hydrolyses triglycerides in chylomicrons and in very low density lipoproteins. In this study, a new sensitive enzyme immunoassay, the dissociation-enhanced lanthanide fluorescence immunoassay (DELFIA), for the quantification of immunoreactive LPL mass in biological specimens was developed. In the indirect sandwich DELFIA assay polyclonal anti-human or anti-bovine LPL IgGs were used as capture antibodies, monoclonal antibody (mAb) 5D2 and Eu(3+)-labelled goat anti-mouse IgG were used as detection antibodies. In the direct sandwich DELFIA assay, mAb 5D2 was used as capture and Eu(3+)-labelled mAb 5D2 as detection antibodies. Both purified bovine and human LPL proteins served as standards in the indirect and the direct DELFIA assay. Standard curves were linear between 0.1 and 1000 ng LPL/ml, assuring the sensitivity of the DELFIAs within this range. Mean values for immunoreactive LPL mass in normal individuals were found to be 40.3 +/- 14.4 ng/ml preheparin plasma and 334.1 +/- 71 ng/ml postheparin plasma. In patients affected with type I hyperlipoproteinemia 82.4 +/- 29.3 ng/ml (postheparin plasma) were determined. Coefficients of inter- and intra-assay variation were 4.3% and 6.2% on average. The correlation coefficient between the indirect and the direct DELFIA technique was 0.9694. The correlation coefficient between immunoreactive LPL mass (estimated by DELFIA) and LPL activity (estimated by the LPL activity assay) was 0.9345. Our data are consistent with the concept that LPL is active as a dimer. Dissociation of the LPL dimer into monomers is tightly coupled to both loss of immunoreactivity and enzyme activity of LPL.     

Comparison of workshop CD45R monoclonal antibodies with OvCD45R monoclonal antibodies in sheep

The reactivity of the antibovine monoclonal antibodies (mAbs) comprising temporary cluster TC1 was compared with that of two OvCD45R mAbs on sheep cells. Three of the mAbs--CC31, CC99 and CC103--did not cross-react with sheep cells. All the workshop mAbs precipitated two molecules of apparent molecular weight (MW) 200 kDa and 220 kDa while the antisheep CD45R mAb 20-96 precipitated a single band of 220 kDa. Cell surface expression was examined by single colour FACS (fluorescence activated cell sorting) analysis of efferent and afferent lymph cells and peripheral blood lymphocytes and the distribution of the antigens on CD4+, CD8+ and T19+ (WC1) and B cells was determined by two colour fluorescence staining. By cellular distribution and immunohistology the TC1 mAbs could be divided into four distinct groups which differed from a fifth group comprising the two OvCD45R antibodies.     

Shared receptor components but distinct complexes for alpha and beta interferons

Protease protection assays of apolipoprotein B100 (apoB) in digitonin-permeabilized HepG2 cells indicated that multiple domains of apoB are exposed to the cytosol through an extensive portion of the secretory pathway. The intracellular orientation of apoB in the secretory pathway was confirmed by immunocytochemistry using antibodies recognizing specific domains of apoB in streptolysin-O (STP-O)- and saponin-permeabilized HepG2 cells. Lumenal epitopes on marker proteins in secretory pathway compartments (p63, p53, and galactosyltransferase) were not stained by antibodies in STP-O-treated cells, but were brightly stained in saponin-treated cells, confirming that internal membranes were not perforated in STP-O-treated cells. An anti-apoB peptide antibody (B4) recognizing amino acids 3221-3240 caused intense staining in close proximity to the nuclear membrane, and less intensely throughout the secretory pathway in STP-O-permeabilized cells. Staining with this antibody was similar in STP-O- and saponin-treated cells, indicating that this epitope in apoB is exposed to the cytosol at the site of apoB synthesis and throughout most of the remaining secretory pathway. Similar results indicating a cytosolic orientation were obtained with monoclonal antibody CC3.4, which recognizes amino acids 690-797 (79-91 kD) in apoB. Two polyclonal antibodies made to human LDL and two monoclonal antibodies recognizing amino acids 1878-2148 (D7.2) and 3214-3506 (B1B6) in apoB did not produce a strong reticular signal for apoB in STP-O-treated cells. The anti-LDL and B1B6 antibodies produced almost identical punctate patterns in STP-O-treated cells that overlapped with LAMP-1, a membrane marker for lysosomes. These observations suggest that the B1B6 epitope of apoB is exposed on the surface of the lysosome. The results identify two specific regions in apoB that are exposed to the cytosol in the secretory pathway.     

Human zona pellucida glycoproteins: characterization using antibodies against recombinant non-human primate ZP1, ZP2 and ZP3

Characterization and classification of human zona pellucida glycoproteins is essential to understand the functions of these components during fertilization. To achieve this, antibodies were raised in rabbits against recombinant non-human primate [Bonnet Monkey (Macaca radiata)] zona pellucida proteins, bmZP1, bmZP2 and bmZP3 expressed in Escherichia coli. Antibodies against the three recombinant zona proteins reacted with human zonae as revealed by indirect immunofluorescence. Such antibodies were used as specific probes to further characterize human zona pellucida glycoproteins in Western blot of heat solubilized human zonae pellucidae (hSIZP) resolved by one dimensional sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE). Under non-reduced conditions human (h) hZP1, hZP2 and hZP3 resolved as 60, 100 and 53 kDa bands respectively. Under reduced conditions, dominant reactivity of hZP1, hZP2 and hZP3 was localized to 63, 65 and 58 kDa and faint reactivity to 53, 96 and 138 kDa bands respectively. In two-dimensional SDS-PAGE, hZP1 was shown to comprise two chains at 63-58 and 55-45 kDa, each consisting of multiple isomers. hZP2 was less acidic when compared with hZP1 and hZP3 and comprised a major component of 65 kDa and a minor component of approximately 96 kDa. The 65 kDa component displayed a higher degree of charged isomers in comparison with the 96 kDa component. hZP3 comprised a broad band in the range 68-58 kDa. These studies show conclusively that the hZP1 heavy train overlaps with hZP3 and that in previous studies, hZP2 was likely to have been misinterpreted as being hZP1. Our studies failed to distinguish two distinct species of hZP3, unlike previous reports. These studies will further help in our understanding of the nature of human zona pellucida glycoproteins.     

Production of monoclonal antibodies to prostromelysin (ProMMP-3) and establishment of a quantitative prostromelysin ELISA assay

Human prostromelysin (59 kDa) was purified from the conditioned medium of IL-1-stimulated human dermal fibroblasts and anti-prostromelysin monoclonal antibodies were produced and identified by ELISA assay. Using prostromelysin, a C-terminally truncated recombinant form of prostromelysin consisting of amino acids 1-255, and their respective activated enzymes, we have begun mapping the epitopes recognized by these monoclonal antibodies. Various patterns of reactivity against the proenzymes and activated enzymes were observed. In further attempts to map the epitopes, we employed synthetic peptides representing hydrophilic regions of the primary amino acid sequence of prostromelysin. Our monoclonal antibodies did not recognize these peptides, suggesting that the antibodies may be recognizing conformational epitopes composed of non-linear portions of prostromelysin. Using these monoclonal antibodies, we have developed a quantitative prostromelysin sandwich ELISA assay.     

Nerve tissue-specific human glutamate dehydrogenase that is thermolabile and highly regulated by ADP

Glutamate dehydrogenase (GDH), an enzyme that is central to the metabolism of glutamate, is present at high levels in the mammalian brain. Studies on human leukocytes and rat brain suggested the presence of two GDH activities differing in thermal stability and allosteric regulation, but molecular biological investigations led to the cloning of two human GDH-specific genes encoding highly homologous polypeptides. The first gene, designated GLUD1, is expressed in all tissues (housekeeping GDH), whereas the second gene, designated GLUD2, is expressed specifically in neural and testicular tissues. In this study, we obtained both GDH isoenzymes in pure form by expressing a GLUD1 cDNA and a GLUD2 cDNA in Sf9 cells and studied their properties. The enzymes generated showed comparable catalytic properties when fully activated by 1 mM ADP. However, in the absence of ADP, the nerve tissue-specific GDH showed only 5% of its maximal activity, compared with approximately 40% showed by the housekeeping enzyme. Low physiological levels of ADP (0.05-0.25 mM) induced a concentration-dependent enhancement of enzyme activity that was proportionally greater for the nerve tissue GDH (by 550-1,300%) than of the housekeeping enzyme (by 120-150%). Magnesium chloride (1-2 mM) inhibited the nonactivated housekeeping GDH (by 45-64%); this inhibition was reversed almost completely by ADP. In contrast, Mg2+ did not affect the nonstimulated nerve tissue-specific GDH, although the cation prevented much of the allosteric activation of the enzyme at low ADP levels (0.05-0.25 mM). Heat-inactivation experiments revealed that the half-life of the housekeeping and nerve tissue-specific GDH was 3.5 and 0.5 h, respectively. Hence, the nerve tissue-specific GDH is relatively thermolabile and has evolved into a highly regulated enzyme. These allosteric properties may be of importance for regulating brain glutamate fluxes in vivo under changing energy demands.     

Identification of the sheep homologue of the monocyte cell surface molecule--CD14

An ovine monocyte/macrophage cell surface antigen was recognized by three mouse monoclonal antibodies (mAbs) VPM65, VPM66 and VPM67. These mAbs also reacted with bovine cells. The antibodies immunoprecipitated a single, glycosyl-phosphatidylinositol-linked polypeptide of M(r) 55,000 which, when deglycosylated, was reduced to M(r) 53,000. They reacted strongly with peripheral blood monocytes, alveolar macrophages and peripheral blood granulocytes, and weakly with afferent lymph dendritic cells. They also reacted with macrophages in many different tissues but were non-reactive with lymphocytes. Competitive flow cytometry shows that these three mAbs recognize the same or a closely related epitope of a single antigen. An antigen-specific capture ELISA using the anti-human CD14 mAb (TUK4) revealed that all four mAbs associate with the same antigen. These data demonstrate that the mAbs react with the ovine homologue of the lipopolysaccharide (LPS)-LPS binding protein receptor, CD14.     

Detection of Helicobacter pylori associated antigen and heat shock protein 60 on follicular dendritic cells in the germinal centres of low grade B cell lymphoma of gastric mucosa associated lymphoid tissue (MALT)

AIMS: To investigate the localisation of Helicobacter pylori antigens and the expression of human heat shock proteins (HSP) in stomachs affected by MALT lymphoma. METHODS: Surgically resected stomachs from 24 patients with MALT lymphoma were immunostained with anti-H pylori rabbit antibodies (ORP-1 and ORP-2) and anti-human HSP60 mouse monoclonal antibodies (mAb) (LK-1 and LK-2). RESULTS: Follicular dendritic cells of germinal centres in the stomachs affected by MALT lymphoma were immunostained with anti-H pylori polyclonal antibodies and with anti-human HSP60 mAb, as were the epithelial cells. None of the lymph node samples reacted. CONCLUSIONS: Human HSP60, which cross reacts with anti-H pylori polyclonal antibodies, is often expressed on follicular dendritic cells in gastric MALT lymphoma tissues and may be aetiologically relevant to lymphomagenesis of MALT lymphoma.     

Tobacco use among multi-ethnic Latino populations

The equine homologue of the leucocyte integrin LFA-1 (CD11a/CD18) has been characterized using a panel of four monoclonal antibodies (mAbs). The antibodies labelled almost all leukocytes, thymocytes and lymph node cells from normal horses, and immunoprecipitated two noncovalently associated polypeptides with molecular weights of 180 kDa and 100 kDa, respectively. The antigen recognized by one mAb could be precipitated by another in this cluster in a sequential immunoprecipitation assay. The mAbs, however, did not block the activities on lymphocyte function of one another. A mAb to the beta subunit of human LFA-1 cross-reacted with equine LFA-1, but an antibody to its alpha subunit did not, suggesting that the beta subunit of the leukocyte integrin may be more highly-conserved. Functionally, H20A and a human CD18 antibody (MHM23) inhibited phorbol ester-mediated homotypic lymphocyte aggregation, whereas mAb CZ3.2 induced rather than inhibited the homotypic cell aggregation. The formation of lymphocyte aggregates induced by CZ3.2 was not blocked by the inhibitory antibodies H20A or MHM23. CZ3.1 seemed to have little inducible or inhibitory effects on homotypic cell aggregation. The mAb CZ3.1 defined a unique LFA-1 determinant present on granulocytes, but absent on lymphocytes in members of an extended horse family, in contrast to the other antibodies which labelled both granulocytes and lymphocytes from these animals. In all other horses tested, no differences in reactivity of CZ3.1 and the other LFA-1 antibodies were observed when the antibodies were tested on lymphocytes or granulocytes. Our results indicate that common epitopes are shared' between human and equine LFA-1, and that the described panel of monoclonal antibodies identifies distinct determinants present on the equine LFA-1 molecule. The following monoclonal antibodies used in this study were given official workshop designations at the Second International Workshop on Equine Leukocyte Antigens (Lunn et al., 1998) CZ3.1 (Cor) = W45; CZ3.2 (Cor) = W77.     

Immunochemical analysis of dopamine transporter protein in Parkinson's disease

The plasma membrane dopamine transporter (DAT) is considered to be a reliable marker of presynaptic dopaminergic terminal loss. Previous in vivo imaging and postmortem binding studies have detected a loss in striatal DAT binding in Parkinson's diseased (PD) brain; however, these techniques have poor spatial resolution and may suffer from nonspecific binding of some ligands. In this study, we use novel highly specific monoclonal antibodies to distinct epitopes of human DAT to quantify and localize the protein. Western blot analysis revealed marked reductions in DAT immunoreactivity in putamen, caudate, and nucleus accumbens of PD brain compared with control cases, and the reductions were significantly correlated to disease duration. Immunohistochemistry revealed DAT-immunoreactive fibers and puncta that were dense throughout the striatum of control brains but that were drastically reduced in putamen of PD brains. Caudate from PD brains showed a significant degree of sparing along the border of the ventricle, and the nucleus accumbens was relatively preserved. An unexpected finding was that discrete islands of DAT immunoreactivity were preserved within the matrix of PD putamen. Thus, immunological analysis of DAT protein provides novel and sensitive means for localizing and quantifying DAT protein in PD and other neurological disorders involving dopaminergic systems.     

Identification of the S-Endo 1 endothelial-associated antigen

We have recently described a monoclonal antibody, S-Endo 1, recognizing a molecule constitutively expressed in all types of human endothelial cells. We showed that this protein around 118 kDa and located at the endothelial cell-cell junction presented sequence identity with MUC18 described as a tumor marker in human melanoma. The difference in antibodies immunoreactivity and antigen molecular weight heterogeneity observed between various cell types strongly suggested S-Endo 1 antigen isoforms expression.