Immunoassay of the adenosine deaminase complexing proteins of human tissues and body fluids.

A sensitive immunoassay for the adenosine deaminase binding protein (complexing protein) of human kidney has been developed. Impetus for the development of the assay was provided by the observations that (a) antibody to complexing protein does not react with the catalytically active adenosine deaminase monomer, and (b) binding of antibody to complexing protein does not affect the binding or catalytic activity of the enzyme monomer. Preformed immune precipitate prepared from rabbit anti-kidney complexing protein serum and goat anti-rabbit gamma-globulin serum is used to selectively insolubilize complexing protein. Quantitation is accomplished by measuring the intrinsic adenosine deaminating activity or adenosine deaminase binding capacity of the protein held in the immune precipitate. As little as 1 ng of kidney complexing protein can be accurately quantitated with the assay. The assay was used to demonstrate that complexing proteins from liver, lung, spleen, fibroblasts, plasma, and urine react with antibody to kidney complexing protein. The shared capacity to bind adenosine deaminase coupled with their antigenic similarity suggests that the complexing proteins of a number of human tissues and body fluids may be products of the same gene.     

Antigenic homology between rat sperm tail polypeptides and Sertoli cell secretory proteins

A high performance liquid chromatographic procedure has been used for the purification of rat Sertoli cell secretory protein S70 and S45-S35 heterodimeric protein to determine their role during spermatogenesis. These two proteins display binding affinity for each other and appear antigenically related. We have observed that: 1. S70 and S45-S35 heterodimeric protein coelute during purification, 2. polyclonal antiserum raised against protein S70 recognizes common antigenic determinants in polypeptides S45 and S35, the disulfide-linked components of the heterodimeric protein, and 3. a monoclonal antibody that recognizes polypeptide S35 but does not crossreact with either protein S70 or polypeptide S45, immunoprecipitates the S70/S45-S35 heterodimeric protein complex. In immunofluorescent experiments, antisera raised against protein S70 and polypeptide components of S45-S35 heterodimeric protein immunoreact with two major sperm intracellular structures: the acrosome and periaxonemal outer dense fibers of sperm tail. Immunoreactivity was not detected on the sperm plasma membrane surface of unfixed, living sperm. Outer dense fibers extracted from sperm tails by a combined treatment with cetylthrimethylammonium bromide and 2-mercaptoethanol, yielded a characteristic polypeptide pattern. In immunoblotting experiments sperm tail polypeptides were recognized by polyclonal antisera raised against Sertoli cell secretory proteins. We conclude that Sertoli cell secretory proteins S70 and S45-S35 heterodimeric protein are antigenically related to each other and to keratin-like polypeptides from sperm tail.     

Differential localization of two epitopes of Escherichia coli ribosomal protein L2 on the large ribosomal subunit by immune electron microscopy using monoclonal antibodies.

Two monoclonal antibodies (mAb), directed toward different epitopes of Escherichia coli ribosomal protein L2, have been used as probes in immune electron microscopy. mAb 5-186 recognizes an epitope within residues 5-186 of protein L2; it is seen to bind to 50 S subunits at or near the peptidyl transferase center, beside the subunit head on the L1 shoulder. mAb 187-272 recognizes an epitope within residues 187-272. This antibody binds to the face of the 50 S subunit, below the head and slightly toward the side with the stalk; this site is near the translocation domain. Both antibodies can bind simultaneously to single subunits. This indicates that protein L2 is elongated, reaching from the peptidyl transferase center to below the subunit head and approaching the translocational domain. The different locations of the two epitopes are consistent with previous biochemical results with the two antibodies (Nag, B., Tewari, D. S., Etchison, J. R., Sommer, A., and Traut, R. R. (1986) J. Biol. Chem. 261, 13892-13897).     

抗GPC3 C端抗体辅助杀伤肝癌细胞HepG2的活性检测及抗原表位鉴定

目的：检测制备的7株抗磷脂酰肌醇蛋白聚糖3（GPC3）蛋白C端单克隆抗体是否具有辅助杀伤肝癌细胞的活性,并研究其识别的抗原表位。方法：用细胞增殖法检测制备的抗体是否具有抗体依赖细胞介导的细胞毒性（ADCC）活性;用生物信息软件分析GPC3蛋白C端（359～580残基）的结构及抗原特征,并据此将其分为4个截短片段,将克隆的各基因片段分别连接到原核表达载体pGEX-4T-1中,进行蛋白表达和纯化,用间接ELISA和Western印迹分析GPC3C端单克隆抗体的表位识别情况。结果与结论：制备的7株单克隆抗体对肝癌细胞HepG2均具有不同程度的辅助杀伤作用,其中5号单克隆抗体的辅助杀伤效果最好;表达并纯化了GPC3C端4个截短片段的重组蛋白;间接ELISA和Western印迹检测结果表明,7株抗体均特异性结合GPC3蛋白的473～525残基区段。     

Isolation and characterization of a monoclonal antibody against pig kidney sodium- and potassium-activated ATPase

A hybridoma cell line producing mouse monoclonal antibody against pig kidney Na,K-ATPase was established. The antibody, named 38 (mAb38, IgG1), was purified from mouse ascites fluid by chromatography on a protein A-Sepharose column. Antigens immobilized on microplate wells with p-benzoquinone were used for titer assays. mAb38 cross-reacted with both dodecyloctaethyleneglycol monoether (C12E8)-solubilized enzyme and membranous sodium dodecyl sulfate (SDS)-treated enzyme from kidney with high affinity (50% binding = 0.6 nM). However, the antibody bound to neither alpha- nor beta-subunit separated by preparative SDS-polyacrylamide gel electrophoresis (PAGE). The stoichiometry of antibody binding to the purified enzyme was estimated to be about 0.86 mol of IgG per mol of alpha beta-protomer. Na,K-ATPase proteins were recovered from a column of mAb38-coupled Affi-Gel by elution with pH 3 buffer when C12E8-solubilized kidney enzyme or detergent extracts of brain microsomes were applied to it, confirming that the mAb is directed to Na,K-ATPase. mAb38 at saturation level concentrations had no effect on kidney Na,K-ATPase activity or on ouabain-sensitive Rb uptake in erythrocytes. In an immunofluorescence study, the antibody bound to intact erythrocytes much more strongly than control IgG1 (mAb50c), but the extent of the antibody binding to inside-out vesicles under hypotonic conditions was lower than that of the control. Most of the antibody binding activity remained when the kidney enzyme was treated with sialidase. These results suggest that this mAb38 was raised against an intact conformation of a cell-surface-exposed site of Na,K-ATPase.     

Biosynthesis of the adenosine deaminase-binding protein in human fibroblasts and hepatoma cells

The adenosine deaminase-binding protein has previously been localized to the cell surface of human fibroblasts (Andy, R. J., and Kornfeld, R. (1982) J. Biol. Chem. 257, 7922-7925). In this study we examine the biosynthesis of binding protein in human fibroblasts, human hepatoma HepG2 cells, and a human kidney tumor cell line. Binding protein immunoprecipitated from radioiodinated detergent-extracted fibroblast membranes has a molecular weight of 120,000 when analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. An additional band of Mr 100,000 is also present which we believe is a result of proteolysis of the 120,000 band. Purified soluble kidney binding protein has an Mr of 112,000. Binding protein from fibroblasts pulse-labeled with [35S]methionine for 15 min migrates as a 110-kDa band on sodium dodecyl sulfate-polyacrylamide gels. Within 30-60 min of chase, the intensity of the 110-kDa band is diminished, and a 120-kDa band has appeared. Binding protein reaches the cell surface of fibroblasts within 30-60 min of chase. The same results are obtained with the other cell lines studied. Thus, binding protein is initially synthesized as a precursor of 110 kDa which chases into a 120-kDa mature form. The shift of 10 kDa is probably due to processing of its oligosaccharide chains since soluble kidney-binding protein contains 7-9 complex N-linked chains. Upon endoglycosidase H treatment, the 110,000 precursor shifts to a Mr of 89,000 while the 120,000 mature band shifts to 115,000, consistent with the presence of 7-9 high mannose chains on the precursor and 1-2 high mannose chains on the mature form. These results and the presence of complex N-linked chains on binding protein were confirmed by lectin affinity chromatography of glycopeptides derived from [2-3H]mannose-labeled binding protein. Analysis of [6-3H]glucosamine-labeled binding protein indicates the presence of 1 sialic acid residue per chain.     

Identification of a novel serum protein secreted by lung carcinoma cells

The murine anti-human lung tumor monoclonal antibody L3 recognizes antigens found both in the medium of cultured carcinoma cells and in normal human serum. Sequential immunoprecipitation experiments indicate that the L3 antigen is also recognized by a previously described monoclonal antibody directed against a melanoma-associated antigen [Natali, P. G., Wilson, B. S., Imai, K., Bigotti, A., & Ferrone, S. (1982) Cancer Res. 42, 583-589]. This antibody precipitated a Mr 76000 glycoprotein from metabolically labeled extracts of the lung carcinoma cell line Calu-1 and a Mr 94 000 glycoprotein from labeled culture medium. Pulse-chase experiments suggested a precursor-product relationship between these molecules. Analysis of glycosidase sensitivities of the two forms indicated that maturation of carbohydrate side chains correlated with the apparent increase in molecular weights. L3 antigenic activity, measured in a competitive radiometric cell binding assay, was purified more than 90-fold from serum-free medium of Calu-1 cells and more than 3000-fold from normal human serum. The major immunoreactive components purified from culture medium and serum were identical with respect to apparent molecular weight, electrophoretic mobility, pI, glycosidase sensitivity, and V8 protease fingerprints. In addition, the sequence of the amino-terminal 16 N-terminal amino acid residues of the major immunoreactive species from both sources was identical. The properties of the L3 antigen did not correspond to those of any known protein, suggesting that this serum protein has not been previously characterized.     

Human adenosine deaminase binding protein. Assay, purification, and properties

In many human tissues adenosine deaminase exists as a complex composed of two proteins; one protein has adenosine deaminase activity while the other represents a binding protein with no other known binding activity. A rapid, quantitative assay for human adenosine deaminase binding protein has been developed utilizing 125I-labeled calf adenosine deaminase. In addition this binding protein has been purified 1,690-fold from human kidney using adenosine deaminase affinity chromatography and appears to be homogenous by sedimentation equilibrium, sodium dodecyl sulfate, and native polyacrylamide gel electrophoresis. This highly purified binding protein exists as a dimer of native molecular weight 190,000, complexes with calf adenosine deaminase in a ratio of 1:2, respectively, and contains carbohydrate which reacts specifically with phytohemagglutinin and ricin lectins. A second form of this adenosine deaminase binding protein may exist, resulting from degradation of its carbohydrate moiety.     

Functional expression of NADPH oxidase components (alpha- and beta-subunits of cytochrome b558 and 45-kDa flavoprotein) by intrinsic human glomerular mesangial cells.

Recently, we have shown that human glomerular mesangial cells (HMCs) release oxygen radicals from the plasma membrane in response to cytokines. Now we have used diphenylene iodonium, a covalent binding inhibitor of activated 45-kDa flavoprotein, in neutrophils radiolabeled with 125I and could identify a 45-kDa protein band in a separated HMC plasma membrane fraction. Low temperature difference spectroscopy showed a peak absorbance at 428 and 558 nm. Direct potentiometry of HMC membranes (-340 to -160 mV) showed the presence of a low potential cytochrome (76 pmol/mg to HMC membrane protein) identified as cytochrome b558. In slot blots, mouse monoclonal antibody (mAb) 7D5, specific for the extracellular domain of the alpha-subunit, showed a positive reaction with HMCs. In Western blots, mAb 449, directed against the cytoplasmic epitope of the alpha-subunit, identified a 23-kDa protein; and mAb 48, raised against the large (beta) subunit of cytochrome b558 of human neutrophils (Verhoeven, A. J., Bolscher, B. G. J. M., Meerhof, L. J., van Zwieten, R., Keijer, J., Weening, R. S., and Roos, D. (1989) Blood 73, 1686-1694), detected a smear between 75 and 100 kDa in denatured HMC membrane protein. These data determined with HMCs, suggest for the first time the expression of three essential components of NADPH:O2- oxidoreductase in mesenchymal cells.     

Specificity of monoclonal antibodies against human thyroglobulin; comparison with autoimmune antibodies.

Ten monoclonal antibodies (mAb) directed against human thyroglobulin (hTgb) were produced, purified and characterized. The mAb avidity for hTgb ranged from 10(-10) to 10(-6) M. The species specificity of the mAb was as follows: eight mAb reacted with monkey Tgb, three with dog Tgb and one with pig Tgb; none with bovine and ovine Tgb. The binding of mAb to hTgb was not significantly inhibited in the presence of Tgb carbohydrate moieties, tyrosine, iodotyrosines and iodothyronines. The topology of the antigenic determinants recognized by the 10 mAb on hTgb was explored by inhibition of Tgb binding of radiolabeled mAb by the other antibodies. Six distinct clusters of reactivity were described. Localization of the antigenic determinants recognized by mAb on hTgb was attempted using tryptic fragments of hTgb to inhibit the binding of mAb to hTgb. The inhibitory effect of hydrolysis products was different for each mAb but exhibited partial analogies between mAb of the same cluster of reactivity. Anti-hTgb autoimmune antibodies (aAb) purified from sera of Graves patients cross-reacted essentially with mAb of one out of the six clusters. These results demonstrate that the large number of antigenic determinants presented by the hTgb are not disseminated on the molecule but are clustered in antigenic regions. Furthermore, from the six antigenic regions evidenced in this paper, only one is involved in autoimmune antibody production in Grave's disease.     

Monoclonal antibody to GABA binding protein, a possible GABAB receptor.

A monoclonal antibody has been raised against a partially purified preparation for the GABAB receptor. The antibody recognized a protein of about 80 kDa in bovine brain synaptic membrane. Immunoabsorbent agarose beads conjugated with the antibody were able to remove, without visible changes in electrophoresed profiles of total proteins, over 90% of the baclofen suppressive GABA binding activity (designated herein, GABAB receptor binding activity) in the solubilized synaptic membrane fraction. Moreover, the addition of GB-1 antibody directly inhibited the GABA binding activity in the crude synaptic membrane fraction. These results indicate that the monoclonal antibody obtained here recognizes the GABA binding protein, or more specifically a GABAB receptor.     

Evidence for a C4b binding site on the C2b domain of C2

We raised murine mAb against human C protein C2. The representative mAb 3A3.3 (IgG1 kappa) recognized an epitope on the C2b domain of C2, as determined by binding and inhibition of binding radioassays. The hemolytic activity of purified human C2 and of C2 in normal human serum was inhibited by the mAb. The rate of decay of the C3-convertase at 30 degrees C was not affected by the mAb. C2 binding to EAC4b was inhibited by intact IgG and the Fab fragment of the mAb; 50% inhibition required 1 microgram/ml of either. The data suggest the presence of a C4b-binding site on the C2b domain of C2 and that the mAb recognizes an epitope at, or adjacent to, this site. The C2b portion of the C2 molecule may be important in assembly of the classical pathway C3-convertase.     

Cloning of cDNAs encoding mammalian double-stranded RNA-specific adenosine deaminase.

Double-stranded RNA (dsRNA)-specific adenosine deaminase converts adenosine to inosine in dsRNA. The protein has been purified from calf thymus, and here we describe the cloning of cDNAs encoding both the human and rat proteins as well as a partial bovine clone. The human and rat clones are very similar at the amino acid level except at their N termini and contain three dsRNA binding motifs, a putative nuclear targeting signal, and a possible deaminase motif. Antibodies raised against the protein encoded by the partial bovine clone specifically recognize the calf thymus dsRNA adenosine deaminase. Furthermore, the antibodies can immunodeplete a calf thymus extract of dsRNA adenosine deaminase activity, and the activity can be restored by addition of pure bovine deaminase. Staining of HeLa cells confirms the nuclear localization of the dsRNA-specific adenosine deaminase. In situ hybridization in rat brain slices indicates a widespread distribution of the enzyme in the brain.     

Sponge aggregation factor: identification of the specific collagen-binding site by means of a monoclonal antibody

The aggregation factor (AF) from the sponge Geodia cydonium is known to be a complex proteinaceous particle, composed of a series of different (glyco)proteins (Mr lower than 150,000) around a 90S sunburst-like core structure. One of the low-Mr proteins is the 47-KD cell binding fragment. We describe a new monoclonal antibody (mAb), III1E6, raised against purified AF particles, which recognizes in tissue slices structures present both on the plasma membrane and in a network-like manner in the extracellular space. By applying immunoelectron microscopical, immunoblotting, and immunoaffinity chromatographical techniques, the mAb III1E6 was shown to recognize the core structure of the AF particle. Cell adhesion studies revealed that the mAb does not inhibit AF mediated cell-cell adhesion but abolishes AF-caused attachment of cells to collagen. Electron microscopic data show that III1E6 prevents association of AF particles with collagen fibrils. By applying the techniques of immunoblotting and of protein-protein recognition on the solid phase in vitro, we could formulate the following series of events: the AF particle recognizes, with its 47-KD cell binding fragment, the aggregation receptor protein in the plasma membrane and with its core structure the collagen fibrils. These fibrils interact optionally, either via the same route or via the collagen assembly factor, with an adjacent cell surface. These findings demonstrate that the AF particle is not only the key molecule for cell-cell adhesion but also a component of cell-matrix interactions.     

Interaction of monoclonal antibodies with alpha-bungarotoxin and (-)-nicotine binding sites in goldfish brain. Identification of putative nicotinic acetylcholine receptor subtypes

Monoclonal antibodies raised against the nicotinic acetylcholine receptor of Electrophorus electricus electroplaque have been used as probes to characterize putative nicotinic acetylcholine receptors in goldfish brain. One monoclonal antibody (mAb), mAb 47, recognized a protein which binds both (-)-[3H]nicotine and 125I-alpha-bungarotoxin with high affinity. Another monoclonal antibody (mAb 172) recognized a protein which binds (-)-[3H]nicotine but not 125I-alpha-bungarotoxin. Both antibodies precipitated a protein(s) (biosynthetically labeled with [35S]methionine) in the absence, but not in the presence, of excess purified nicotinic acetylcholine receptor from Torpedo nobiliana. The dilution of mAb 47 that precipitated half of the maximum amount of 125I-alpha-bungarotoxin binding protein was the same as that which precipitated half of the maximum amount of (-)-[3H]nicotine binding activity. When used in combination, the two antibodies precipitated more (-)-[3H]nicotine radioactivity than either antibody alone. The (-)-[3H]nicotine and 125I-alpha-bungarotoxin binding component-mAb complexes were characterized by sucrose density centrifugation. In the presence of either mAb 172 or 47, the (-)-[3H] nicotine binding component migrated further into the gradient, but only mAb 47 shifted the 125I-alpha-bungarotoxin peak. Incubation of solubilized brain extract with alpha-bungarotoxin-coupled Sepharose reduced the amount of (-)-[3H]nicotine radioactivity precipitated by mAb 47 but not by mAb 172. These data suggest that the antibodies may recognize distinct subtypes of (-)-nicotine binding sites in goldfish brain, one subtype which binds both 125I-alpha-bungarotoxin and (-)-[3H]nicotine and a second subtype which binds only (-)-[3H] nicotine.     

Anti-idiotypic antibodies to a polyomavirus monoclonal antibody recognize cell surface components of mouse kidney cells and prevent polyomavirus infection.

Anti-idiotypic antibodies have been successfully used to identify and isolate the receptor for several cell ligands. To prepare an immunologic probe for identification of the polyomavirus receptor on mouse kidney cells, polyclonal antisera against antipolyomavirus antibodies were prepared in rabbits. Fab fragments of the previously characterized monoclonal antibody E7, which neutralizes polyomavirus infection, were used for immunization (S. J. Marriott and R. A. Consigli, J. Virol. 56:365-372, 1985). Sera containing the greatest anti-idiotype activity were identified by enzyme-linked immunosorbent assay (ELISA) and purified by a series of affinity columns. The anti-idiotypic antibodies recognized the E7 idiotope in an ELISA, and anti-idiotype binding could be inhibited by preincubation of E7 monoclonal antibody with polyomavirus virions. When mixed with anti-idiotype immunoglobulin G (IgG), E7 was no longer capable of binding or immunoprecipitating polyomavirus virions or neutralizing polyomavirus infection. Direct immunofluorescence showed anti-idiotype IgG reactivity with a cell surface component of mouse kidney cells. Anti-idiotype F(ab')2 effectively competed with polyomavirus for binding to mouse kidney cells and displayed binding kinetics similar to those of polyomavirus. Virus infection of mouse kidney cells was blocked in a dose-dependent manner following treatment of the cells with anti-idiotype IgG. The anti-idiotype identified several proteins (95, 50, and 24 to 31 kilodaltons) in an immunoblot of mouse kidney cell membrane proteins but reacted predominantly with a single 50-kilodalton protein in a radioimmunoassay. The anti-idiotype failed to react with virus proteins in three assays, including ELISA, immunoprecipitation, and immunoblotting. The implications of this work for future identification and characterization of the polyomavirus receptor on mouse kidney cells are discussed.     

A monoclonal anti-IgE antibody against an epitope (amino acids 367-376) in the CH3 domain inhibits IgE binding to the low affinity IgE receptor (CD23)

We have produced three different mAb specific for human IgE-Fc. Their binding pattern to either heat-denatured IgE or a family of overlapping IgE-derived recombinant peptides and their ability to affect interaction of IgE with its low affinity receptor Fc epsilon R2/CD23 demonstrate that they recognize distinct epitopes on the IgE molecule. All three mAb were able to induce basophil degranulation as measured by the induction of histamine release. mAb 173 recognizes a thermolabile epitope in the CH4 domain. It does not affect the binding of IgE to Fc epsilon R2/CD23. mAb 272 recognizes a thermostable epitope that maps to a sequence of 36 amino acids (AA) spanning part of the CH2 and CH3 domain and it does not affect the binding of IgE to Fc epsilon R2/CD23. mAb 27 recognizes a thermolabile epitope located on a 10 AA stretch (AA 367-376) in the CH3 domain. This area contains one N-linked oligosaccharide (Asn-371), but the antibody is not directed against carbohydrate because it binds to Escherichia coli-derived IgE peptides. mAb 27 inhibits the binding of IgE to Fc epsilon R2/CD23 but is still capable of reacting with IgE already bound to Fc epsilon R2/CD23. These data suggest that upon binding to Fc epsilon R2/CD23, the IgE molecule engages one of two equivalent-binding sites close to the glycosylated area of the CH3 domain.     

人宫颈癌基因蛋白单克隆抗体的制备、鉴定及初步应用

目的:制备人宫颈癌基因蛋白单克隆抗体并初步用于肝癌血清检测。方法:重组表达HCCR-1蛋白胞外区(第167th-360th氨基酸)进行动物免疫,用含有HCCR蛋白抗原表位的融合蛋白筛选阳性克隆。通过ELISA、Western Blot、免疫组化鉴定抗体性质,并用于肝癌血清样本检测。结果:获得3株抗人HCCR蛋白单克隆抗体,其中B3抗体特异性、灵敏度较好。ELISA结果表明B3只识别GST-HCCRep蛋白和His-HCCR蛋白,与其他蛋白没有交叉反应;B3可检测到10 mg/L的GST-HCCRep蛋白;B3抗体亲和力常数Kaff=1.86×107(L/mol);Western Blot结果表明该抗体可识别天然HCCR蛋白;免疫组化检测表明肝癌组织中有HCCR蛋白表达而正常组织中未见表达;肝癌患者血清HCCR阳性率达到75%。结论:成功制备了HCCR单克隆抗体,为建立新的肝癌早期诊断方法奠定了基础。     

Monoclonal antibodies that bind the renal Na+/glucose symport system. 1. Identification

Phlorizin is a specific, high-affinity ligand that binds the active site of the Na+/glucose symporter by a Na+-dependent mechanism but is not itself transported across the membrane. We have isolated a panel of monoclonal antibodies that influence high-affinity, Na+-dependent phlorizin binding to pig renal brush border membranes. Antibodies were derived after immunization of mice either with highly purified renal brush border membranes or with apical membranes purified from LLC-PK1, a cell line of pig renal proximal tubule origin. Antibody 11A3D6, an IgG2b, reproducibly stimulated Na+-dependent phlorizin binding whereas antibody 18H10B12, an IgM, strongly inhibited specific binding. These effects were maximal after 30-min incubation and exhibited saturation at increased antibody concentrations. Antibodies did not affect Na+-dependent sugar uptake in vesicles but significantly prevented transport inhibition by bound phlorizin. Antibodies recognized a 75-kDa antigen identified by Western blot analysis of brush border membranes, and a 75-kDa membrane protein could be immunoprecipitated by 18H10B12. These properties, taken together with results in the following paper [Wu, J.-S.R., & Lever, J.E. (1987) Biochemistry (following paper in this issue)], provide compelling evidence that the 75-kDa antigen recognized by these antibodies is a component of the renal Na+/glucose symporter.     

Monoclonal antibodies to rabbit and pig zonae pellucidae distinguish species-specific and shared antigenic determinants

Monoclonal antibodies against rabbit or porcine zonae pellucidae (ZP) demonstrate species-specific and shared antigenic determinants. In addition, these antibodies are used to characterize the biochemical nature of these determinants. All of six monoclonal antibodies developed against porcine ZP react with porcine but not with rabbit ZP. Only one of seven monoclonal antibodies developed against rabbit ZP cross-reacts with porcine ZP. None of these antibodies recognized antigens associated with other tissues tested. High-resolution, two-dimensional polyacrylamide gel electrophoresis (2D-PAGE) followed by immunoblotting was used to demonstrate that the cross-reactive antibody recognizes an antigenic determinant which is associated with the major low molecular weight glycoprotein of both the pig and rabbit ZP. Since this antibody recognizes all charge species of this glycoprotein, it is apparent that the antigenic determinant recognized by this antibody involves protein. Further studies demonstrate that proteolytic digestion of ZP will destroy the antigenic determinant while glycosidic digestion of ZP has no effect on antibody binding. Although polyclonal antibodies to this glycoprotein inhibit sperm from binding to the zona pellucida, this monoclonal antibody does not affect sperm binding. None of the species-specific antibodies recognize ZP glycoproteins following 2D-PAGE. This is a property typical of antibodies directed against conformational antigenic determinants. The presence of common as well as unique zona antigenic determinants could explain why ZP proteins induce heteroantibodies which result in infertility while alloimmunization has no effect on fertility.