Identification, immunoaffinity purification and partial characterization of a human decidua-associated protein

A crude extract of pooled early-pregnancy decidual tissue was enriched for soluble decidual proteins by exhaustive affinity absorption with antibodies to human serum proteins immobilized on Eupergit C. The partly purified extract was used to prepare monoclonal antibodies. A monoclonal antibody was obtained recognizing an antigen present in extract of decidual tissue and not in extract of proliferative endometrium. The monoclonal antibody was used for immunoaffinity purification of the decidua-associated protein. By SDS-PAGE analysis, under reducing conditions it yielded 2 bands at apparent molecular weights of 55,000 and 25,000. Under non-reducing conditions a single protein band at apparent molecular weight of 200,000 was observed. The Mr 200,000 protein was named hDP200 and the Mr 55,000 protein was named hDP55. It is suggested that hDP55 is a subunit of the hDP200. The hDP200 did not react with polyclonal antibodies specific for PP12 and PP14. PP14 has been shown to be immunologically indistinguishable from PEP and alpha 2-PEG. Our data therefore suggest that hDP200 is a novel human decidua-associated protein.     

Immunoaffinity purification and quantitation of a rat protein similar to the human decidua-associated protein (hDP) 71

The role of human decidua-associated protein (hDP) 71, copurified consistently with hDP 200, identified as rheumatoid factor, remains undetermined. The possibility of using a rat as an experimental model for the further research of hDp 71, was examined. A rat protein, similar to the hDp 71, was immunoaffinity purified using the same monoclonal antibody recognizing hDp 71. The protein was named rat decidua- associated protein (rDP) 71. The level of hDp 71 in extracts of endometrial epithelium and stroma, as well as in uterine washings, was measured throughout the oestrous cycle and on 5 consecutive days, starting the day after the rats mated. Moreover, the effect of oestrogen and progesterone on the level of hDp 71 was examined. The results demonstrate the oestrogen-dependent accumulation of rDP 71 in uterine lumen, and support the use of a rat as an experimental animal model to investigate the possible physiological role of this protein in the reproductive process.     

Association between allo-immunoreactive and xeno-immunoreactive subunits of a glycoprotein tumor-associated antigen

Summary Using allogeneic antibody, we previously described a tumor-associated antigen (TAA) in the urine of 68% of melanoma patients. The TAA was purified from urine of a melanoma patient and used as immunogen to develop a murine monoclonal antibody (AD1-40F4) and xenopolyclonal antibodies in a baboon. Sera from melanoma patients treated with whole melanoma cell vaccine were used as the source of human antibody to the glycoprotein antigen. Treatment with 2-mercaptoethanol and separation by sodium dodecyl sulfate/polyacrylamide gel electrophoresis resolved the high-molecular-mass glycoprotein TAA into smaller subunits. Immunoblot analysis indicates that the murine monoclonal antibody (AD1-40F4) recognized a 90–100-kDa subunit of the antigen while human anti-TAA antibodies primarily recognized a 65-kDa subunit in addition to the 90–100-kDa subunit. Baboon polyclonal antibodies recognized the same subunits plus a 120-kDa subunit. Blocking studies indicated that the murine monoclonal and baboon polyclonal antibodies recognized the closely related epitopes on the 90–100-kDa subunit, while human antibodies recognized an epitope entirely distinct from that recognized by the mouse antibody. These results demonstrate the epitope complexity associated with the high-molecular-mass glycoprotein TAA.     

Rapid purification and partial characterization of human platelet glycoprotein IIIb. Interaction with thrombospondin and its role in platelet aggregation

Glycoprotein IIIb (also known as glycoprotein IV) is a major glycoprotein present on the surface of human platelets. Recent studies suggest that glycoprotein IIIb may be a receptor site for thrombospondin. Thrombospondin, a multifunctional adhesive glycoprotein released from stimulated platelets, plays an important role in the stabilization of platelet aggregates. In this study, a new method for the purification of glycoprotein IIIb is described. Glycoprotein IIIb was isolated from Triton X-114 platelet membrane extracts, under nondenaturing conditions, by tandem anion-exchange and size exclusion fast protein liquid chromatography. The purified glycoprotein had the same apparent molecular mass (88 kDa) under nonreducing or reducing conditions. The tryptic peptide map of the purified protein was identical to that of bona fide glycoprotein IIIb as isolated from two-dimensional polyacrylamide gels of platelet membrane proteins. In addition, the purified glycoprotein was recognized by an anti-GPIIIb monoclonal antibody (OKM5). The purified glycoprotein specifically bound to thrombospondin in the presence of calcium. Monospecific anti-GPIIIb antibodies interfered with the expression of endogenous thrombospondin on thrombin-activated platelets and partially inhibited collagen- and thrombin-induced platelet aggregation without a significant effect on platelet secretion. Glycoprotein IIIb, by interacting with thrombospondin on the activated platelet surface, may play an important role in the platelet aggregation process.     

Methodological approaches to immunohistochemical demonstration of beta-hexosaminidase in human placental and renal tissue with monoclonal antibodies

The lysosomal enzyme, beta-hexosaminidase (Hex), was studied in full-term human placentas and in renal tissue using monoclonal antibodies raised against Hex purified from human placentas. The immunohistochemical reaction for Hex was pronounced in trophoblastic cells and macrophages of the basal plate and the smooth chorion, but was faint or negative in the amnion as well as in the syncytiotrophoblast and Hofbauer cells of the chorionic villi. The maternal decidual cells of the basal plate were negative. Biochemical enzyme analysis showed the highest activity in basal plate cells (containing trophoblast, decidual cells, macrophages and neutrophils) and a low activity in the chorionic villi. Placental tissue was less positive with monoclonal antibodies specific for Hex A, compared with antibodies reacting with both Hex A and Hex B. Epithelial cells of the renal proximal tubules were positive to the same degree with antibodies recognizing both Hex A and Hex B as well as those recognizing only Hex A.     

Isolation and characterization of a membrane glycoprotein from human brain with sequence similarities to cell adhesion proteins from chicken and mouse

We previously described the production of monoclonal antibodies against a preparation of membrane glycoproteins from human brain [Berglund et al. (1987) J. Neurochem. 48, 809-815]. One of the glycoproteins, recognized by monoclonal antibody CF3, was specifically expressed in the brain. We now report the isolation and characterization of this glycoprotein, called glycoprotein 135 (Gp135). Gp135 was purified by means of lentil lectin affinity chromatography and immunoaffinity chromatography, using monoclonal antibody CF3, from a crude membrane extract of human brain cortex. Gp135 was shown to consist of a glycosylated single polypeptide chain with an apparent molecular mass of 135 kDa. The size of the polypeptide moiety was estimated to 115 kDa following N-glycanase digestion. The glycoprotein is anchored in the membrane by a glycosylphosphatidylinositol tail, as shown by phospholipase C digestion and liposome incorporation experiments. Amino acid sequence analysis of the amino terminal, and of an internal peptide obtained by V8 protease digestion of the glycoprotein, revealed a strong similarity to three previously described glycoproteins from chicken (contactin and F11) and mouse (F3) brains. These glycoproteins belong to the immunoglobulin superfamily and are implicated in cell adhesion phenomena in the developing brain. Gp135 may be the human counterpart to one or several of these glycoproteins.     

Cell surface expression of human cytomegalovirus (HCMV) gp55-116 (gB): use of HCMV-recombinant vaccinia virus-infected cells in analysis of the human neutralizing antibody response.

Cell surface expression of the human cytomegalovirus (HCMV) major envelope glycoprotein complex, gp55-116 (gB), was studied by using monoclonal antibodies and an HCMV gp55-116 (gB) recombinant vaccinia virus. HCMV-infected human fibroblasts and recombinant vaccinia virus-infected HeLa cells expresses three electrophoretically distinct proteins of Mr 170,000, 116,000, and 55,000 on their surface. These species have been previously identified within infected cells and purified virions. Two unique neutralizing epitopes were shown to be present on the cell surface gp55-116 (gB). Utilizing HeLa cells infected with the gp55-116 recombinant vaccinia virus as a specific immunosorbent, we have shown that approximately 40 to 70% of the total serum virus-neutralizing activity of a group of individuals with past HCMV infections was directed against this single envelope glycoprotein. The implications of this finding for vaccine development are discussed.     

The Fap1 fimbrial adhesin is a glycoprotein: antibodies specific for the glycan moiety block the adhesion of Streptococcus parasanguis in an in vitro tooth model

Streptococcus parasanguis is a primary colonizer of the tooth surface and plays a pivotal role in the formation of dental plaque. The fimbriae of S. parasanguis are important in mediating adhesion to saliva-coated hydroxylapatite (SHA), an in vitro tooth adhesion model. The Fap1 adhesin has been identified as the major fimbrial subunit, and recent studies suggest that Fap1 is a glycoprotein. Monosaccharide analysis of Fap1 purified from the culture supernatant of S. parasanguis indicated the presence of rhamnose, glucose, galactose, N-acetylglucosamine and N-acetylgalactosamine. A glycopeptide moiety was isolated from a pronase digest of Fap1 and purified by immunoaffinity chromatography. The monosaccharide composition of the purified glycopeptide was similar to that of the intact molecule. The functionality of the glycan moiety was determined using monoclonal antibodies (MAbs) specific for the intact Fap1 glycoprotein. These antibodies were grouped into two categories based on their ability to block adhesion of S. parasanguis to SHA and their corresponding specificity for either protein or glycan epitopes of the Fap1 protein. 'Non-blocking' MAb epitopes were mapped to unique protein sequences in the N-terminus of the Fap1 protein using non-glycosylated recombinant Fap1 proteins (rFap1 and drFap1) expressed in Escherichia coli. In contrast, the 'blocking' antibodies did not bind to the recombinant Fap1 proteins, and were effectively competed by the binding to the purified glycopeptide. These data suggest that the 'blocking' antibodies are specific for the glycan moiety and that the adhesion of S. parasanguis is mediated by sugar residues associated with Fap1.     

Immunochemical characterization of related families of glycoproteins in desmosomes

Using several biochemical approaches, we have characterized the relatedness of the various glycoprotein components of the bovine epidermal desomosome. Sodium dodecyl sulfate-polyacrylamide gel electrophoretic analysis of purified epidermal desmosomes reveals 12 proteins, of which 8 are glycosylated. Analysis with monoclonal antibodies indicates that the 8 glycoproteins comprise 3 antigenically distinct protein families. Members of the highest molecular weight glycoprotein family (a triplet of Mr = 150,000) were not distinguishable by partial proteolytic peptide mapping. At least 6 different monoclonal antibodies have been identified that recognize unique antigenic determinants shared by these proteins. Members of a 97,000-118,000-dalton glycoprotein family (about 4 bands) generate very similar but not identical partial proteolytic peptide maps. At least 3 different monoclonal antibodies have been identified that recognize unique antigenic determinants shared by these proteins. A Mr = 22,000 glycoprotein is immunologically unrelated to either of the high molecular weight glycoprotein families. Lectin-binding profiles indicate that within each immunologically related family the glycoproteins are similar in their oligosaccharide composition. Some lectins distinguish among the families. These glycoproteins probably mediate the specific intercellular recognition and adhesive functions of the desmosome.     

Biochemical studies of the human thymocyte cell-surface antigens T6, T9 and T10

Three human thymic cell-surface antigens T6, T9 and T10, previously defined by monoclonal antibodies, were analyzed using immunoprecipitation techniques. The antigen T6 was found to be a 49,000 dalton glycoprotein, which is associated with β2-microglobulin, the small subunit (12,000 daltons) of the HLA-A, -B, and -C antigens. The target antigen for the monoclonal reagent anti-T9 was found to be a glycoprotein of 94,000 daltons, which appears as a disulfide-linked dimer of 190,000 daltons on the cell surface. The antigen precipitated by the anti-T10 antibody is a 45,000 dalton glycoprotein. We present preliminary evidence that all three cell-surface proteins may be integral membrane proteins. These findings, in addition to the distribution patterns, suggest that the T6 antigen is the human homolog of the murine thymus leukemia (TL) antigen.     

Monoclonal antibodies that recognize lacto-N-fucopentaose III (CD15) react with the adhesion-promoting glycoprotein family (LFA-1/HMac-1/gp 150,95) and CR1 on human neutrophils

A variety of monoclonal antibodies has been used to study the roles of surface proteins in neutrophil function. Many monoclonal antibodies that bind to human neutrophils react with the oligosaccharide lacto-N-fucopentaose III. Sequential immunoprecipitation of radiolabeled proteins from extracts of neutrophils labeled at the cell surface with 125I, and partial proteolysis peptide mapping studies were used to compare the proteins recognized by several widely used monoclonal antibodies that react with human neutrophils. The monoclonal antibodies that react with lacto-N-fucopentaose III (CD15) immunoprecipitated five distinct neutrophil surface proteins. The data indicate that CD15 monoclonal antibodies react with a subset of the LFA-1/HMac-1/gp 150,95 glycoprotein family as well as with CR1 on human neutrophils. The CD15 antibodies studied differed in their avidities for these proteins. The molecules immunoprecipitated by the CD15 antibodies tested were more resistant to proteolysis than the homologous proteins immunoprecipitated by the other monoclonal antibodies studied that react directly with the alpha M (CD11) or beta (CD18) chains of the LFA-1/HMac-1/gp 150,95 glycoprotein family. Some of the differences in antibody reactivity and protease sensitivity of the membrane proteins recognized by these antibodies may be due to differences in glycosylation. The data suggest that the antibodies studied can detect differences in post-translational modification among copies of certain surface proteins.     

Characterization of cell surface glycoproteins recognized by the granulocyte-specific monoclonal antibody, AHN-1

Major surface-iodinated proteins of Mr 105,000 and 145,000 of normal human neutrophils are immunoprecipitated by a number of monoclonal antibodies (AHN-1 to AHN-6), which react specifically with granulocytes among peripheral blood cells and selectively inhibit phagocytosis. These proteins, and an Mr 60,000 component, were purified by monoclonal antibody affinity chromatography, molecular sieve chromatography, and preparative polyacrylamide gel electrophoresis. Each of the three purified proteins was immunoprecipitated by all six antibodies. Nevertheless, tryptic peptide maps of the three proteins indicated that each was a distinct component. AHN-1 to AHN-6 also bound to glycolipid fractions of human neutrophils, and the binding of each antibody to human neutrophils was blocked by the carbohydrate sequences, lacto-N-fucopentaose III. The data indicate that a predominant antigenic determinant of human neutrophils is lacto-N-fucopentaose III, or related carbohydrates, present on three distinct proteins as well as glycolipids. At least one of these molecules appears to be involved in the process of phagocytosis.     

Characterization of Nervana, a Drosophila melanogaster Neuron-Specific Glycoprotein Antigen Recognized by Anti-Horseradish Peroxidase Antibodies

Abstract: Antibodies to the plant glycoprotein horseradish peroxidase (HRP) are used extensively to identify neurons in Drosophila and other insects. We are interested in characterizing the gene product(s) recognized by anti-HRP antibodies because it may be important for nervous system function and/or development. Here we identify and purify from adult Drosophila heads an anti-HRP-reactive M_r 42K glycoprotein that is likely to be the major contributor to neuronal specific anti-HRP staining. Several different monoclonal antibodies to the purified 42K glycoprotein recognize up to three proteins with distinct mobilities between M_r 38K and 42K that vary as a function of developmental age. We have collectively named these components Nervana (nerve antigen), because the monoclonal antibodies also specifically stain cultured neurons and embryonic nervous system with a pattern indistinguishable from anti-HRP staining. Western blots indicate the presence of immunologically similar proteins in a wide variety of insect species and in nac (neurally altered carbohydrate) mutant Drosophila flies that lack anti-HRP staining in adult nervous system. It should now be possible to undertake a full biochemical and functional characterization of Nervana in Drosophila .     

Plasmodium vivax interaction with the human Duffy blood group glycoprotein: identification of a parasite receptor-like protein

The interaction between merozoites of the human pathogen, Plasmodium vivax, and the Duffy blood group glycoprotein on the surface of human erythrocytes is essential for the invasion of erythrocytes and the survival of the parasite. We have identified a P. vivax protein of 135 to 140 kDa which binds with receptor-like specificity to the human Duffy blood group glycoprotein. This interaction can be specifically inhibited by purified Duffy glycoprotein and by pretreating erythrocytes with a monoclonal antibody directed against a novel Duffy determinant. A protein with similar specificity for the Duffy glycoprotein from the phylogenetically related simian malaria, P. knowlesi, is shown to be immunologically related by the generation of cross-reactive antibodies. Despite their shared properties, these two Duffy associating proteins from P. vivax and P. knowlesi differ in some aspects of their interaction with the Duffy glycoprotein. The identification of these proteins will help elucidate the molecular mechanisms of erythrocyte invasion by Plasmodium.     

Reconstitution of hepatitis C virus envelope glycoproteins into liposomes as a surrogate model to study virus attachment

The envelope glycoproteins, E1 and E2, of hepatitis C virus (HCV) assemble intracellularly to form a noncovalent heterodimer that is expected to be essential for viral assembly and entry. However, due to the lack of a cell culture system supporting efficient HCV replication, it is very difficult to obtain relevant information on the functions of this glycoprotein oligomer. To get better insights into its biological and biochemical properties, HCV envelope glycoprotein heterodimer expressed by a vaccinia virus recombinant was purified by immunoaffinity. Purified E1E2 heterodimer was recognized by conformation-dependent monoclonal antibodies, showing that the proteins were properly folded. In addition, it interacted with human CD81, a putative HCV receptor, as well as with human low and very low density lipoproteins, which have been shown to be associated with infectious HCV particles isolated from patients. Purified E1E2 heterodimer was also reconstituted into liposomes. E1E2-liposomes were recognized by a conformation-dependent monoclonal antibody as well as by human CD81. Together, these data indicate that E1E2-liposomes are a valuable tool to study the molecular requirements for HCV binding to target cells.     

Purification and characterization of a protein antigen (p94) from human brain and its identification in other species.

A protein antigen was chromatographically purified from human brain by its immunoaffinity to 44E3 monoclonal IgG and its chemical nature was investigated. The yield of antigen was estimated at 71%, and a 3160-fold purification was achieved relative to the homogenate. The antigen preparation from brain showed a very high degree of purity when analysed by SDS/polyacrylamide-gel electrophoresis and was composed of a single polypeptide of Mr 94,000. Amino-sugar and neutral-sugar analyses indicated that the protein was not glycosylated. The amino acid composition of the purified protein from brain was compared with that of the analogous protein purified from an acute-lymphoblastic-leukaemic cell line, HOON. The compositions were very similar, suggesting that the two proteins were closely related. Both purified proteins were equivalent in their ability to inhibit the reactivity of monoclonal antibodies 44E3 and 44H4 with leukaemic cells. These two antibodies appear to recognize spatially related, if not identical, epitopes on the same molecule. The antibodies were shown to cross-react with a polypeptide of Mr 94,000 in homogenates of human, bovine and guinea-pig brain white matter. Indirect immunoperoxidase staining of human grey- and white-matter acetone-fixed tissue sections incubated with either antibody indicated that the antigen was present on neuronal and glial cells; the staining was seen as clusters in the cytoplasm, starting at the plasma membrane, but leaving the nucleus unstained. The concentration of the protein in human brain was shown to be similar throughout postnatal development and aging.     

Evidence that monoclonal antibodies against CD9 antigen induce specific association between CD9 and the platelet glycoprotein IIb-IIIa complex

Monoclonal antibodies to the CD9 antigen are powerful platelet agonists. We report here the novel finding that the anti-CD9 monoclonal antibodies 50H.19 and ALB6 promote physical association between CD9 antigen and the glycoprotein IIb-IIIa complex (GPIIb-IIIa) component of the platelet fibrinogen receptor. The monoclonal antibodies do not consistently immunoprecipitate proteins other than CD9 from 125I-labeled human platelets even if the platelets are first treated with the homobifunctional cross-linking reagent dithiobis(succinimidyl propionate), indicating that CD9 antigen is not physically associated with other membrane proteins in the resting state. However, the addition of agonistic concentrations of either monoclonal antibody before cross-linking results in the coprecipitation of proteins corresponding in mobility and peptide composition to GPIIb, and GPIIIa. The association of CD9 with the GPIIb-IIIa complex is unaffected by a combination of aspirin and ADP scavengers sufficient to abrogate anti-CD9 monoclonal antibody-induced platelet aggregation, and is therefore not dependent upon thromboxane- and ADP-mediated pathways of intracellular signalling. The specificity of the association is demonstrated by the lack of other coprecipitating major proteins, by the requirement for induction by anti-CD9 monoclonal antibodies, and by the failure to promote reciprocal association with either of the anti-GPIIb-IIIa complex monoclonal antibodies P2 or HuP1-m1a.     

Myelin-Associated Glycoprotein Shares an Antigenic Determinant with a Glycoprotein of Human Melanoma Cells

A sulfated 100K-dalton glycoprotein has been shown to be released into the culture medium of melanoma cells. Monoclonal antibodies 10C5 and 11B5, which were raised to human melanoma cells, as well as HNK-1 bind to this glycoprotein. It is shown here that mouse anti-myelin-associated glycoprotein (MAG) carbohydrate antibodies raised to human MAG and a human IgM paraprotein associated with neuropathy also bind to the same 100K molecule. However, anti-MAG antibodies recognizing peptide epitopes do not appear to react with this glycoprotein of melanoma cells, a result suggesting that its similarity to MAG is restricted to shared carbohydrate moieties. The anti-melanoma antibodies (10C5 and 11B5) resemble HNK-1 in binding to MAG and to some 19-28K-dalton glycoproteins and sulfated, glucuronic acid-containing sphingoglycolipids of the peripheral nervous system (PNS). In addition, the anti-melanoma antibodies cross-react with neural cell adhesion molecule (N-CAM), an observation emphasizing the shared antigenicity between MAG and other adhesion molecules. The results demonstrate that the anti-melanoma antibodies fall into a class of monoclonal antibodies (including HNK-1, human IgM paraproteins associated with neuropathy, anti-human MAG antibodies, and L2 antibodies) that are characterized by reactivity against related carbohydrate determinants shared by human MAG, N-CAM, and several protein and lipid glycoconjugates of the PNS.     

Immune labeling and purification of a 71-kDa glutamate-binding protein from brain synaptic membranes. Possible relationship of this protein to physiologic glutamate receptors

Immunoblot studies of synaptic membranes isolated from rat brain using antibodies raised against a previously purified glutamate-binding protein (GBP) indicated labeling of an approximately 70-kDa protein band. Since the antibodies used were raised against a 14-kDa GBP, the present studies were undertaken to explore the possibility that the 14-kDa protein may have been a proteolytic fragment of a larger Mr protein in synaptic membranes. Protease activity during protein purification was prevented by introducing five protease inhibitors, and a three-step purification procedure was developed that yielded a high degree of purification of glutamate-binding proteins. The major protein enriched in the most highly purified fractions was a 71-kDa glycoprotein, but a 63-kDa protein was co-purified during most steps of the isolation procedure. The glutamate-binding characteristics of these isolated protein fractions were very similar to those previously described for the 14-kDa GBP, including estimated dissociation constants for L-glutamate binding of 0.25 and 1 microM, inhibition of glutamate binding by azide and cyanide, and a selectivity of the ligand binding site for L-glutamate and L-aspartate. The neuroexcitatory analogs of L-glutamate and L-aspartate, ibotenate, quisqualate, and D-glutamate, inhibited L-[3H]glutamate binding to the isolated proteins, as did the antagonist of L-glutamate-induced neuronal excitation, L-glutamate diethylester. On the basis of the lack of any detectable glutamate-related enzyme activity associated with the isolated proteins and the presence of distinguishing sensitivities to analogs that inhibit glutamate transport carriers in synaptic membranes, it is proposed that the 71-kDa protein may be a component of a physiologic glutamate receptor complex in neuronal membranes.     

Induction of a neutralizing immune response to human respiratory syncytial virus with anti-idiotypic antibodies.

Anti-idiotypic (anti-Id) antibodies were raised in rabbits against monoclonal antibodies that recognized either F glycoprotein 47F or G glycoprotein 63G, 62G, or 74G of the human respiratory syncytial virus Long strain. Anti-Id sera inhibited the virus binding of the immunizing monoclonal antibodies and in some cases the binding of other antibodies reacting with overlapping epitopes. The anti-Id sera also inhibited virus neutralization mediated by the original monoclonal antibodies. Affinity purified anti-Id antibodies were subsequently used to raise a homologous anti-anti-Id response in rabbits. One of the rabbits, inoculated with anti-Id 63G, generated antibodies that reacted with the G protein of respiratory syncytial virus and neutralized the virus to high titers. The antiviral antibodies induced by anti-Id 63G were broadly cross-reactive with strains of the A and B subtypes. However, the specificities of monoclonal antibody 63G and anti-anti-Id 63G were not exactly the same, as indicated by their reaction with escape mutants to antibody 63G. These results demonstrate for the first time the induction of an anti-respiratory syncytial virus response by anti-Id antibodies.