Idiotype vaccines against human T cell acute lymphoblastic leukemia. I. Generation and characterization of biologically active monoclonal anti-idiotopes

A murine monoclonal anti-tumor antibody termed SN2 (Ab1), isotype IgG1-kappa, that defines a unique human T cell leukemia-associated cell-surface glycoprotein, gp37 (m.w. 37,000), was used to generate monoclonal anti-idiotype antibodies (Ab2) in syngeneic BALB/c mice. The Ab2 were screened on the basis of their binding to the F(ab')2 fragments of SN2 and not to the F(ab')2 of pooled normal BALB/c mice sera IgG1 or to an unrelated BALB/c monoclonal antibody of the same isotype. Fifteen Ab2, obtained from two fusions, were specific for the SN2 idiotope and not against isotype or allotype determinants. To find out whether these Ab2 are directed against the paratope of SN2, the binding of radiolabeled SN2 to leukemic MOLT-4 and JM cells which contain gp37 as a surface constituent was studied in the presence of these anti-idiotopes. Clone 4EA2 inhibited the binding 100% at a concentration of 50 ng and 4DC6 inhibited 90% at a concentration of 250 ng. A third clone 4DD6 gave about 50% inhibition. Similar was the inhibition of SN2 binding to insolubilized MOLT-4 antigen or cell membrane preparation. The binding of SN2 (Ab1) to 4EA2 and 4DC6 was also inhibited by semipurified preparation of gp37 antigen. These results demonstrate that at least two of the anti-idiotope antibodies are binding either at or near the binding site idiotope of SN2. Next, the purified Ab2 was used to immunize syngeneic mice to induce antibody binding to MOLT-4 cells or gp37. Sera from mice immunized with 4EA2 and 4DC6 coupled to keyhole limpet hemocyanin contained antibodies which bind to semipurified gp37 antigen and MOLT-4 cells. Immune sera inhibited the binding of iodinated Ab2 and Ab1 indicating that an anti-anti-idiotopic antibody (Ab3) in mice shares idiotopes with Ab1 (SN2). Also, the binding of iodinated Ab2 to Ab1 was inhibited by rabbit antisera specific for gp37. Collectively, these data suggest that anti-idiotype antibodies 4EA2 and 4DC6 may be useful in the generation of idiotype vaccines against human T cell leukemia.     

Importance of immunoglobulin isotype in therapy of experimental autoimmune encephalomyelitis with monoclonal anti-CD4 antibody

Experimental allergic encephalomyelitis (EAE) is an autoimmune disease mediated by CD4+ T cells. Prior studies have established that monoclonal anti-CD4 antibodies can reverse EAE. To determine whether immunoglobulin isotype plays a role in the therapy of EAE with anti-CD4 antibody, an isotype switch variant family of the mouse IgG1 anti-rat CD4 antibody W3/25 was isolated with the fluorescence-activated cell sorter. The IgG1, IgG2b, and IgG2a W3/25 isotype variants all had identical binding capacities for rat CD4+ T cells. Although all three W3/25 isotypes showed some beneficial effects in the amelioration of EAE, the IgG1 and IgG2a W3/25 antibodies were superior to the IgG2b W3/25 in the treatment of EAE. Multiparameter fluorescence-activated cell sorter analysis of T cell subpopulations from treated rats showed that none of the antibodies of the W3/25 isotype switch variant family substantially depleted CD4+ target cells in vivo. These experiments demonstrate that immunoglobulin isotype is important in the monoclonal antibody therapy of autoimmune disease. They indicate that therapy of EAE may be successful without a major depletion of CD4+ lymphocytes. Immunotherapy may be optimized by selecting an appropriate isotype of a monoclonal antibody.     

Immune responses to the 18-kDa protein of Mycobacterium leprae. Similar B cell epitopes but different T cell epitopes seen by inbred strains of mice.

Antibody responses to the 18-kDa protein of Mycobacterium leprae have been analyzed in different strains of mice. High, intermediate, and low responder strains have been identified and these response patterns show clear linkage to genes encoded in the H-2 complex. Three peptides, residues 1-50, 51-100, and 101-148 have been synthesized, as well as a series of 20-mer peptides, which span the entire 18-kDa protein. Repeated immunization of different strains of mice with the 18-kDa protein resulted in IgG responses to epitopes found on all three synthetic peptides. Immunization of BALB/cJ and B10.BR mice, two high responder strains, with 18-kDa protein resulted in high levels of IgG antibody to epitopes found on peptides 1-20, 16-35, 31-50, 46-65, and 76-95. B10.BR mice also contained IgG that bound peptide 61-80 and BALB/cJ mice produced IgG that bound peptide 91-110. Although B10.BR mice produced IgG that bound the 50-mer peptide 101-148, this IgG was not detected by binding to peptides 91-110, 106-125, 121-140, and 131-148. Immunization of B10.BR mice with individual overlapping 20-mer peptides as Ag revealed that peptides 1-20, 16-35, 31-50, and 76-95 elicited high titers of IgG that bound both the immunizing peptide as well as 18-kDa protein. As these peptides induce antibody synthesis they must contain both B cell and T cell epitopes. By contrast, immunization of BALB/cJ mice with the same 20-mer peptides, all of which contain B cell epitopes for this strain, failed to elicit IgG responses with one exception. Peptide 91-110 induced IgG that bound peptide 91-110, but not the intact 18-kDa protein. We conclude that peptides 1-20, 16-35, 31-50, and 76-95 either lack T cell epitopes for BALB/cJ mice, or activate different T cell subpopulations in the two strains. We suggest that the induction of IgG responses to small peptide Ag is an in vivo assay of the activity of Th2 cell subpopulations.     

Immunoprotective murine monoclonal antibodies specific for the outer-core polysaccharide and for the O-antigen of Escherichia coli 0111:B4 lipopolysaccharide (LPS)

The antigen specificity of two immunoprotective monoclonal antibodies derived from mice immunized with Escherichia coli 0111:B4 bacteria and boosted with purified lipopolysaccharide (LPS) were investigated. One of the antibodies, B7, was shown by sodium dodecyl sulfate polyacrylamide gel electrophoresis and immunostaining to bind to the O-antigen containing LPS species, whereas the other antibody, 5B10, reacted with both O-antigen containing homologs and the O-antigen-deficient LPS. 5B10 did not bind to LPS from E. coli J5, an Rc mutant of E. coli 0111:B4 that lacks both the O-antigen and outer core sugars. 5B10 did not cross-react with LPS from several other E. coli strains. Thus 5B10 appeared to recognize a type-specific epitope in the outer core of LPS exclusive of Rc determinants. The monoclonal antibody specific for the polymeric O-antigen is of the IgG3 subclass, and the monoclonal antibody 5B10 specific for the outer core of LPS is an IgG2a. Although B7 and 5B10 were equally able to protect mice from a lethal challenge of E. coli 0111:B4 organisms, the outer core-specific IgG2a antibody was much more efficient at mediating the binding of human complement C3 than the O-antigen-specific IgG3 monoclonal antibody.     

Immunoregulation by monoclonal sheep erythrocyte-specific IgG antibodies: suppression is correlated to level of antigen binding and not to isotype

Six different monoclonal IgG antibodies with specificities for sheep erythrocytes (SRBC) were tested for immunosuppressive ability. Four of them, one IgG3, two IgG2a, and one IgG1, could yield suppression of more than 90% of the anti-SRBC response. The remaining two antibodies, which were both IgG2a, were found to have no significant effect. The degree of suppression correlated well with the amount of antibodies used that could bind to SRBC, as measured by an ELISA assay. High avidity for SRBC was also a factor making the monoclonal antibody more efficient as an immunosuppressor. The response against antigenic determinants on the SRBC other than those for which the monoclonals were specific, was suppressed to an equal degree. This was established by immunizing mice with SRBC using monoclonal anti-SRBC antibodies that did or did not bind to goat RBC (GRBC). The PFC responses against both SRBC and GRBC were then measured. The anti-SRBC and GRBC responses were suppressed in parallel regardless of whether or not the monoclonal reacted with GRBC. None of the tested antibodies displayed any significant ability to enhance the anti-SRBC response. Thus, IgG1 is not the only murine isotype that can efficiently suppress the immune response against SRBC, but IgG2a and IgG3 can also exert this capacity. The mechanism of IgG-mediated suppression is not one of merely blocking single epitopes but involves the immunogenicity of the entire SRBC.     

Evidence for a polypeptide segment at the carboxyl terminus of recombinant human gamma interferon involved in expression of biological activity

A panel of 18 murine monoclonal antibodies was raised in BALB/c mice to the full-length, 146 amino acid residue recombinant human gamma interferon (rHuIFN gamma-A). Two monoclonal antibodies, designated 47N3-6 and 30N47-1, were purified from ascites tumors and further characterized. Antibody 47N3-6 neutralized both the antiviral and antiproliferative activities of rHuIFN gamma-A. Both Western blotting and enzyme-linked immunosorbent assays indicated that antibody 47N3-6 could bind to rHuIFN gamma-A as well as to a genetically engineered truncated form lacking the first three amino-terminal residues (rHuIFN gamma-D) but did not recognize a genetically engineered variant terminating at residue 131 (rHuIFN gamma-B). This antibody also demonstrated binding to a 15 amino acid residue oligopeptide, designated F-1, corresponding to residues 132-146 at the carboxyl terminus of rHuIFN gamma-A. Chemical cleavage of peptide F-1 with cyanogen bromide produced two fragments that were separated by reversed-phase high-pressure liquid chromatography. Dot-blot analysis indicated that antibody 47N3-6 could bind to a fragment, KRKRSQHse, derived from residues 132-137 of rHuIFN gamma-A, but could bind only weakly to the cyanogen bromide fragment corresponding to residues 138-146. It was consistent with these results that antibody 47N3-6 demonstrated binding to a form lacking the five carboxyl-terminal amino acids (rHuIFN gamma-D') but did not bind to a synthetic polypeptide corresponding to residues 138-146. Peptide F-1 exhibited neither antiviral nor antiproliferative activity, and it did not antagonize the antiviral activity of rHuIFN gamma-A.(ABSTRACT TRUNCATED AT 250 WORDS)     

A public idiotypic determinant is present on spontaneous cationic IgG antibodies to DNA from mice of unrelated lupus-prone strains

A monoclonal anti-idiotypic antibody (anti-Id) to a public idiotype (Id) present on spontaneous IgG antibodies to DNA from NZB/NZW F1 mice recognized similar determinants on polyclonal and monoclonal IgG anti-DNA antibodies from mice of the unrelated MRL/lpr and BXSB strains. Incubation of the anti-Id with four of five monoclonal Id in solid phase inhibited their ability to bind DNA; however, different Id+ antibodies recognized different epitopes within the DNA molecule. Therefore, the public Id was located close to the antigen-binding regions but did not comprise all of those regions. Analysis of multiple polyclonal and monoclonal antibodies to DNA showed the Id on all subclasses of IgG. However, antibodies bearing the Id carried a neutral or cationic charge (10 of 10 monoclonals with pI greater than 7 were Id+); the presence of the Id on anionic IgG (pI less than or equal to 7) was infrequent (one of 21 serums, one of eight monoclonal antibodies). Therefore, IgG autoantibodies to DNA are constructed from closely related public idiotypes in several mouse strains that spontaneously develop lupus, and that Id is restricted to antibodies with a pI of 7 or greater.     

Monoclonal antibodies to Salmonella lipopolysaccharide: anti-O-polysaccharide antibodies protect C3H mice against challenge with virulent Salmonella typhimurium

The present investigation reports the production of monoclonal antibodies to antigenic determinants of the O-polysaccharide of Salmonella typhimurium lipopolysaccharide (LPS), and assesses the effectiveness of these antibodies in protecting C3H mice against the lethal effects of Salmonella infection. Hybridomas were generated by fusing spleen cells from (BALB/c X A/J)F1 (CAF1) mice hyperimmunized by i.v. injection with acetone-killed S. typhimurium SR-11 with X63-Ag8.653 murine myeloma cells. Hybridomas producing antibodies reactive with S. typhimurium SR-11 whole cells were subcloned, and seven of the resulting clones as well as one previously described clone were selected for use in the studies reported here. Monoclonal antibodies from these eight clones were of the IgG1 (1), IgG3 (6), or IgM (1) isotype and were specific for the O-polysaccharide region of Salmonella LPS, reacting with LPS from smooth S. typhimurium SR-11 and LT-2, but not with LPS from rough S. minnesota R60 (Ra), R345 (Rb), or R595 (Re). The effectiveness of each monoclonal antibody in protecting C3H/HeN and C3H/HeJ mice against the lethal effects of Salmonella infection was evaluated by comparing the median length of survival of groups of mice given antibody by i.p. injection before i.p. challenge with virulent S. typhimurium SR-11 to that of animals that received no antibody. Three out of eight monoclonal anti-O-polysaccharide antibodies, ST-1 (IgM), 10-5-47 (IgG3), and 10-5-6 (IgG3), provided significant (p less than 0.01) protection to C3H/HeN mice challenged with approximately 10(4) LD100 of Salmonella. Only antibodies ST-1 and 10-5-6, however, extended the median length of survival of C3H/HeJ mice beyond that of infected controls. Mouse antiserum prepared against S. typhimurium SR-11 was equally protective in C3H/HeJ mice. In an attempt to understand the contribution of antibody specificity to the relative differences in the protective capacities of the monoclonal antibodies, their reactivities with several Salmonella reference strains of different classical serotypes were examined. Although some differences in reactivity against the different strains were apparent, this approach was not adequate for defining the fine specificity of these monoclonal antibodies. The results of this study provide evidence that monoclonal antibodies with specificity to the O-polysaccharide region of Salmonella LPS can protect C3H mice against challenge with the homologous bacterial strain.     

The immunoglobulin heavy chain constant region affects kinetic and thermodynamic parameters of antibody variable region interactions with antigen

A central dogma in immunology is that antibody specificity is a function of the variable (V) region. However serological analysis of IgG(1), IgG(2a), and IgG(2b) switch variants of murine monoclonal antibody (mAb) 3E5 IgG(3) with identical V domains revealed apparent specificity differences for Cryptococcus neoformans glucuronoxylomannan (GXM). Kinetic and thermodynamic binding properties of mAbs 3E5 to a 12-mer peptide mimetic of GXM revealed differences in the affinity of these mAbs for a monovalent ligand, a result that implied that the constant (C) region affects the secondary structure of the antigen binding site, thus accounting for variations in specificity. Structural models of mAbs 3E5 suggested that isotype-related differences in binding resulted from amino acid sequence polymorphisms in the C region. This study implies that isotype switching is another mechanism for generating diversity in antigen binding and that isotype restriction of certain antibody responses may reflect structural constraints imposed by C region on V region binding. Furthermore, isotype affected the polyreactivity of V region identical antibodies, implying a role for C region in determining self-reactivity.     

Analysis of the monocyte Fc receptors and antibody-mediated cellular interactions required for the induction of T cell proliferation by anti-T3 antibodies

The induction of human T cell proliferation by antibodies that cross-link T3 antigens is dependent on functional interactions of anti-T3 antibodies with monocyte Fc receptors. In this report, we used a panel of anti-T3 antibodies of differing heavy chain isotype and a variety of other monoclonal antibodies to analyze several features of the antibody-mediated interactions between T cells and monocytes that are required for mitogenesis. Whereas three IgG2a anti-T3 antibodies were mitogenic for cells from all individuals, IgM and IgG2b anti-T3 antibodies did not induce T cell proliferation in any donor and could block the proliferative responses induced by other mitogenic anti-T3 antibodies. Dose-response analyses with four IgG1 anti-T3 antibodies demonstrated donor heterogeneity as reported by other investigators. However, in contrast to these previous reports, high concentrations of IgG1 anti-T3 antibodies were found to be mitogenic for all donors, indicating that this heterogeneity is based on relative rather than absolute defects in low responder monocytes. Cell mixing experiments in which monocytes from two different low responder donors were co-cultured with T cells and IgG1 anti-T3 antibodies did not identify any complementary defects, suggesting that the low responder phenotype results from a relatively restricted polymorphism. To assess the nature of the signals required for inducing T cell proliferation, nonmitogenic anti-T3 antibodies were co-cultured with other pan-T cell antibodies having the IgG2a isotype. The combination of signals from T3 antigen cross-linkage and those independently generated by other IgG2a antibodies bound to monocyte Fc receptors did not induce T cell proliferation. Hence, it appears that the T3 antigen or closely associated structures must be clustered at the monocyte membrane for mitogenesis. Finally, in competitive inhibition experiments, the isotype specificity of monocyte Fc receptors involved in the induction of T cell proliferation was examined. Two distinct Fc receptor sites, one that binds murine IgG2a and IgG3 antibodies and a second that binds murine IgG1 antibodies, were identified. Murine IgM or IgG2b did not appear to bind either of these receptor sites. Taken together, these data indicate that human monocytes have two distinct Fc receptor sites, which must specifically and directly interact with T cell-bound anti-T3 antibodies for mitogenesis.     

IgG anti-DNA autoantibodies within an individual autoimmune mouse are the products of clonal selection

Although mice from almost all inbred strains produce IgM anti-DNA antibody in response to B cell mitogens, only (NZB x NZW)F1 mice and mice from other strains that are genetically predisposed to autoimmunity spontaneously produce anti-DNA antibody of the IgG isotype. Because (NZB x NZW)F1 mice display marked B cell hyperactivity, anti-DNA antibody production in these mice has been thought to result from spontaneous, polyclonal B cell activation. Although this may be true for IgM anti-DNA antibodies, our results demonstrate that IgG anti-DNA antibodies are not polyclonal. Rather, IgG anti-DNA autoantibodies within an individual autoimmune mouse are oligoclonal and somatically mutated. These results demonstrate that IgG anti-DNA autoantibodies are the products of clonally selective B cell stimulation and exhibit the same characteristics as secondary immune antibodies to conventional immunogens: they are IgG, they are clonally restricted, and they are somatically mutated.     

In vivo immunosuppression by pan-T cell antibodies relates to their isotype and to their C1q uptake

There is considerable interest in the use of monoclonal anti-T cell antibodies for immunosuppression during organ transplantation. However, the in vitro cytotoxic titers of these monoclonal reagents do not correlate with their immunosuppressive potency when injected in vivo. A relationship nevertheless seems to exist between immunosuppression and the isotype of anti-mouse Thy-1 antibodies, because among several anti-Thy-1 antibodies of mouse and rat origin, the only two found to cause immunosuppression in vivo belonged to the rat IgG2b and mouse IgG2a isotype. We show here that a quantitative positive correlation exists between an antibody-induced humoral effector mechanism and immunosuppression. We measured the uptake of the C1q complement subunit by polyclonal rabbit and rat anti-thymocyte globulin and also seven monoclonal anti-Thy-1 antibodies in an immunohistochemical assay or a radioimmunoassay. Immunosuppression was studied in a murine graft-vs-host and skin allograft model. Our results suggest strongly that a stable association between the C1 protein and a potential binding antibody is an essential prerequisite of antibody-dependent cell inhibition in vivo that suppresses the immunoresponse against strongly incompatible transplantation antigens.     

Isotype profiles of anti-influenza antibodies in mice bearing the xid defect.

The humoral response to influenza A/PR8 virus was examined in the CBA/N and C3J.xid strains of mice, both of which bear an X-linked genetic defect (xid), and in strains lacking this defect. Hemagglutination-inhibiting antibody titers and measurement of virus-specific antibodies by solid-phase radioimmunoassay indicated that the xid defect does not impair the production of an adequate anti-influenza antibody response. However, investigation of the isotypes of PR8 virus-specific antibodies disclosed a relative decrease in the levels of IgG3 and IgG1 in the xid-bearing strains. This was observed after both intraperitoneal immunization and aerosol infection. The isotype differences were not reflected in the susceptibility of these strains to influenza virus infection.     

Monoclonal IgM antibody protection in mice against infection with an encapsulated strain of Staphylococcus epidermidis.

Passive protective activities of three different classes of monoclonal antibodies in mice against challenge with strain ATCC 31432 (capsular type I) of Staphylococcus epidermidis were examined. Monoclonal IgM antibody passively protected mice against challenge with the homologous strain, whereas monoclonal IgG1 and IgG2b antibodies did not. The protective activity of IgM was absorbed by the cell surface antigen extracted from the homologous strain but not by the antigen from heterologous strains. Rapid reduction of viable cells took place in the peritoneal cavity of mice immunized with monoclonal IgM as early as 6 h after the challenge with the homologous strain. An enzyme-linked immunosorbent inhibition assay showed there was remarkable inhibition with the homologous cell surface antigen but not with heterologous preparations from other strains. Results suggest that in the mouse the major passive protection against the S. epidermidis strain is provided by the IgM antibody to the cell surface antigen.     

Mechanisms of antibody-mediated protection against lymphocytic choriomeningitis virus infection: mother-to-baby transfer of humoral protection.

The role of antiviral antibodies in resistance to lymphocytic choriomeningitis virus (LCMV) infection was explored. Immune serum and monoclonal antibodies prevented fatal T-cell-mediated immunopathology following acute LCMV infections. In addition, 10- and 14-day-old mice that received maternally derived anti-LCMV antibodies through nursing were protected from an otherwise lethal LCMV challenge. Detailed investigation of the mechanism(s) by which these antiviral antibodies provided was carried out by using anti-LCMV monoclonal antibodies. Protection correlated directly with the ability of the antibodies to reduce viral titers in the tissues of conventional (K. E. Wright and M. J. Buchmeier, J. Virol. 65:3001-3006, 1991) and nude mice. However, this reduction was not simply a reflection of virus neutralizing activity, since not all antibodies which neutralized in vitro were protective. A correlation was also found between immunoglobulin isotype and protection: all of the protective antibodies were immunoglobulin G2a (IgG2a), while IgG1 antibodies mapping to the same epitopes were not. Protection appeared to be associated with events controlled by the Fc region. Functional F(ab')2 fragments which retained in vitro neutralizing activity were not protective in vivo. Furthermore, this Fc-associated function was not related to complement-mediated cell lysis, since C5-deficient mouse strains were also protected. These results suggest a role for antibody in protection from arenavirus infections and indicate that a distinct immunoglobulin subclass, IgG2a, may be essential for this protection.     

IgG subclasses of anti-tetanus toxoid antibodies in adult and newborn normal subjects and in patients with systemic lupus erythematosus, Sjogren's syndrome, and drug-induced autoimmunity

The IgG subclasses of anti-tetanus toxoid (anti-TT) antibodies were quantitated in normal sera and sera from patients with rheumatic disease. Detection relied on a set of four mouse monoclonal antibodies, each of which showed specificity for the respective isotype, independent of gamma-chain allotype or light chain class of the human antibody. Approximately 90% of the total anti-TT activity in normal adults and patients with Sjogren's syndrome was IgG1. In addition, IgG4 antibodies were detected in one-half the samples, but IgG2 and IgG3 antibodies were observed in only two out of 36 sera. However, antibodies elicited in children immunized with TT were exclusively IgG1 and IgG3, with IgG4 antibodies detectable only at birth (presumably due to transplacental passage of antibody) in three of 12 children. In contrast to normal adults, patients with systemic lupus erythematosus (SLE) and drug-induced autoimmunity (DIA) had a more promiscuous isotype profile. IgG2 and/or IgG3 anti-TT antibodies were detected in 13 of 22 SLE patients and IgG3 antibodies in six of 11 patients with DIA. IgG4 anti-TT antibodies were predominant in seven of these 33 patients. These findings suggest that IgG isotypes may depend on the frequency of the stimulus, but global alterations in immunologic status as reflected in systemic autoimmune disease may override the homeostatic mechanisms that control isotype restriction.     

Influence of antibody isotype on passive serotherapy of lymphoma

We assessed the in vivo anti-tumor effectiveness of monoclonal antibodies of different isotypes. Starting with a hybridoma cell secreting an IgG3 anti-Thy-1.1 antibody, we isolated three variant hybridoma cell lines secreting anti-Thy-1.1 antibody of the IgG1, IgG2a, and IgG2b isotypes. Each antibody displayed identical antigen binding properties, but differed in their ability to mediate in vitro lysis of Thy-1.1+ AKR/J SL2 lymphoma cells. In assays of complement dependent cytotoxicity, the relative activity of each antibody isotype was IgG2a = IgG2b greater than IgG3 greater than IgG1. In assays of antibody-dependent cell-mediated cytotoxicity when using non-immune spleen cells as effectors, the relative activities were IgG2a greater than or equal to IgG2b greater than IgG1 greater than IgG3. Infusion of equivalent amounts of each antibody (1.5 mg) in AKR/Cum (Thy-1.2+) mice inoculated subcutaneously with 3 X 10(5) AKR/J SL2 lymphoma cells resulted in significant inhibition of tumor growth only in mice treated with IgG2a antibody. However, the antibodies were cleared at different rates, with the IgG2a antibody having the slowest clearance. When antibody doses were adjusted to achieve equivalent serum levels 24 hr after infusion, all of the antibody isotypes exhibited at least some anti-tumor activity, although IgG2a antibody was again the most effective. These studies demonstrate that the difference in anti-tumor activity between antibodies of different isotypes may result from differences both in their serum clearance rate and their ability to interact with host effector mechanisms.     

A monoclonal antibody from infected mice to a Schistosoma mansoni egg proteinase

A number of monoclonal antibodies were obtained by fusion of SP2/0 myeloma cells and spleen lymphocytes from mice infected with Schistosoma mansoni. These antibodies were tested for their ability to inhibit acidic, thiol-dependent proteinases previously isolated from Schistosoma mansoni eggs and adult worms. One of the monoclonal antibodies isolated inhibits egg proteinase activity measured in vitro with the use of a low m.w. synthetic substrate. This antibody, which is an IgG1 isotype, does not appreciably inhibit an acidic, thiol-dependent proteinase obtained from the adult stage of Schistosoma mansoni. Immunocytochemical methods with the monoclonal antibody have been used to localize the egg proteinase within a set of "penetration" glands in the unhatched miracidium.     

Monoclonal antibodies against acidic phosphoproteins P0, P1, and P2 of eukaryotic ribosomes as functional probes.

Mice were immunized against ribosomal acidic proteins P1 and P2 from Artemia salina, and three kinds of monoclonal antibodies were isolated. One recognized P0 in addition to both P1 and P2 (anti-P). The other two recognized either P1 (anti-P1) or P2 (anti-P2) specifically and did not recognize P0. The anti-P antibody, but not anti-P1 or anti-P2, recognized a 22-amino acid peptide corresponding to the carboxyl-terminal sequence common to P1 and P2. This antibody, but not the others, inhibited poly(U)-directed polyphenylalanine synthesis. The anti-P1 bound to ribosomes but failed to inhibit polyphenylalanine synthesis: the anti-P2 did not bind to ribosomes at all. The anti-P and its Fab fragments inhibited the elongation step of protein synthesis, namely, the binding of elongation factors 1 alpha and 2 to ribosomes as well as their ribosome-coupled GTPase activities. Anti-P had little effect on the nonenzymatic phenylalanyl-tRNA binding to ribosomes and on peptidyltransferase activity. These results suggest the functional importance of the homologous carboxyl-terminal region of the three P proteins for the interaction of the ribosome with the two elongation factors. The epitope of anti-P1 must reside in a region of the protein which is not directly involved in its function.     

Kinetic mechanism of pulmonary carbonyl reductase.

An IgG1 monoclonal antibody, Sulph I, reacting with sulphatide (3'-sulphogalactosylceramide), was produced by immunizing Balb/c mice with that glycolipid coated on Salmonella minnesota bacterial membrane. Radioimmunodetection of the binding of the monoclonal antibody to structurally related glycolipids adsorbed to microtitre plates or chromatographed on thin-layer plates was used to determine its binding epitope. The antibody showed similar binding avidity to three sulphated glycolipids: sulphatide, sulpholactosylceramide and seminolipid. Lysosulphatide did bind the antibody, but, compared with sulphatide, 30 times more antigen was needed for half-maximal binding. Bis(sulphogangliotriosyl)ceramide and bis-sulphogangliotetraosylceramide did not bind the antibody. These results suggest that terminal galactose-3-O-sulphate and part of the hydrophobic region of the glycolipid are recognized by the Sulph I antibody.