The beta1 adrenergic effects of antibodies against the C-terminal end of the ribosomal P2beta protein of Trypanosoma cruzi associate with a specific pattern of epitope recognition.

BALB/c mice immunized with recombinant Trypanosoma cruzi ribosomal P2beta protein (TcP2beta) develop a strong and specific antibody response against its 13 residue-long C-terminal epitope (peptide R13: EEEDDDMGFGLFD) that has a concomitant beta1-adrenergic stimulating activity. However, other animals that undergo similar immunizations seem tolerant to this epitope. To evaluate further the antibody response against the ribosomal P proteins, 25 BALB/c and 25 Swiss mice were immunized with TcP2beta. From the 50 animals, 31 developed a positive anti-R13 response, whereas 19 were non-responsive. From the 31 anti-R13 positive mice, 25 had anti-R13 antibodies that recognized the discontinuous motif ExDDxGF, and their presence correlated with the recording of supraventricular tachycardia. The other six had anti-R13 antibodies but with a normal electrocardiographic recording. These anti-R13 antibodies recognized the motif DDxGF shared by mammals and T. cruzi and proved to be a true anti-P autoantibody because they were similar to those elicited in Swiss, but not in BALB/c mice, by immunization with the C-terminal portion of the mouse ribosomal P protein. Our results show that the recognition of the glutamic acid in position 3 of peptide R13 defines the ability of anti-R13 antibodies to react with the motif AESDE of the second extracellular loop of the beta1-adrenergic receptor, setting the molecular basis for their pathogenic beta1 adrenoceptor stimulating activity.

Effects of various adjuvants and a viral infection on the antibody specificity toward native or cryptic epitopes of a protein antigen.

An immunization protocol that induces antibodies (Abs) directed to cryptic epitopes of a protein antigen (Ag) reduces the efficacy of vaccines that ideally should induce Abs against native epitopes. We have shown earlier that viral infections concomitant with immunization against a protein tend to shift the Ab specificity toward cryptic epitopes and tend to induce the production of autoantibodies (autoAbs). Here, we show the effects of three adjuvants on the Ab specificity in the absence or presence of a viral infection (lactate dehydrogenase-elevating virus or LDV), with human growth hormone (hGH) being, as before, the protein Ag. Pathogen-free CBA/Ht and BALB/c mice were immunized with hGH in the presence of complete Freund's adjuvant (CFA), monophosphoryl lipid A (MPL) or alum, with the animals being either infected with LDV or not infected with LDV. Conventional and competition enzyme-linked immunosorbent assays (ELISAs) indicated that in noninfected mice, CFA induced higher titres of anti-hGH Ab than did MPL or alum, with the Ab being almost totally directed to cryptic hGH epitopes. Strikingly, CFA plus LDV infection in CBA/Ht mice shifted the specificity of the anti-hGH Ab toward native epitopes, whereas the virus decreased the Ab titre when MPL or alum was used. Our Western blot results showed that 70% of mice immunized with hGH in the presence of any adjuvant produced autoAbs against a variety of tissue Ags. The amount of autoAb and the concentration of Ab to hGH cryptic epitopes did correlate, suggesting a relationship between both kinds of Ab. Significant differences were observed in the various effects of adjuvants and the viral infection between the two mouse strains used in this work.

Identification of two liver proteins recognized by autoantibodies elicited in mice infected with mouse hepatitis virus A59.

Western blot experiments showed that sera from mice infected with the mouse hepatitis virus strain A59 (MHV-A59) contained autoantibodies (autoAb) that bound to a 40-kDa protein present in liver and kidney extracts. No reaction was observed with extracts of the heart, muscles, spleen, brain and lung. The Ab cross-reacted with a 40-kDa protein from human, rat and sheep liver, but not with liver extracts from the silver side fish (Odontesthes bonariensis). No correlation was found between the development of the hypergammaglobulinemia that followed the viral infection and the occurrence of the autoAb. Reactive immunoglobulins pertained to the IgG1, IgG2a and IgG2b subclasses, recognized cryptic epitopes and were detected from 10 days up to 8 weeks after MHV-infection. The 40-kDa protein was purified from mouse liver extracts by ion-exchange chromatography, gel filtration and SDS-PAGE. Because the N-terminal was blocked, we digested the protein in-gel with trypsin and sequenced various peptides. Results indicated a 100% homology of sequence between the protein recognized by the autoAb and liver fumarylacetoacetate hydrolase (FAH), the enzyme that mediates the last step of tyrosine catabolism. Additionally, a second protein recognized by the autoAb was detected during FAH purification steps and was identified as liver alcohol dehydrogenase.

Autoantibodies to cryptic epitopes elicited by infection with lactate dehydrogenase-elevating virus.

Lactate dehydrogenase-elevating virus (LDV) produces a permanent infection in mice with a B-lymphocyte polyclonal activation leading to hypergammaglobulinaemia. Since LDV specifically suppressed antibodies to native epitopes in CBA/Ht, but not BALB/c, mice immunized against a protein antigen, we explored the relationship between such a change in antibody specificity and the expression of autoantibodies under the influence of LDV. Again in CBA/Ht, but not BALB/c, mice we observed another effect of LDV: the sera from infected CBA/Ht mice were found by enzyme-linked immunosorbant assay to contain antibodies to various mouse tissue extracts. Immunoblots revealed a large spectrum of autoantigens that differed markedly between animals. Western-blot competition experiments showed that the protein autoantigens had to be denatured to react with most of the autoantibodies. Despite the presence of these autoantibodies directed to cryptic epitopes, no specific tissue lesions could be ascribed to the autoimmune response elicited by LDV infection, since both mouse strains showed mild inflammatory reactions in liver and kidney.

Ovine placental lactogen and human growth hormone bind to different regions of the same receptors.

Anti-human growth hormone (hGH) polyclonal and monoclonal antibodies (MAb) failed to recognize ovine placental lactogen (oPL), indicating that the antigenic topographies of both hormones are different. Binding assays showed that oPL completely inhibited hGH binding to lactogenic receptors from Nb2-cells and to somatogenic receptors from rabbit or sheep liver; in contrast, oPL only bound to a subpopulation of rat liver receptors. Zinc ion increased hGH and oPL binding to Nb2-cell receptors and slightly inhibited both hormones' recognition by somatogenic receptors. However, ZnCl(2) increased hGH binding to rat liver microsomes but prevented that of oPL. Furthermore, MAb R7B4, recognizing lactogenic as well as somatogenic receptors, entirely blocked hGH binding to the various receptor systems but not affected oPL binding. Therefore, results presented in this paper suggest that oPL and hGH bind to different regions of the same receptors.

Changes in the specificity of antibodies in mice infected with lactate dehydrogenase-elevating virus.

Infection with lactate dehydrogenase-elevating virus (LDV) modifies the isotypic distribution of antibodies (Ab) directed to several antigenic proteins with a preferential production of IgG2a. Because it was not known whether the virus could also affect the Ab specificity, the authors addressed this point using human growth hormone (hGH) as a model antigen. Anti-hGH monoclonal antibodies (MoAb) were used as probes to study the occurrence of Ab to three native hGH epitopes (3C11, F11 and 10D6) in sera from LDV-infected CBA/Ht and BALB/c mice immunized with hGH. Competition ELISA was used to determine the extent of Ab directed to cryptic hGH epitopes, i.e. antigenic determinants hidden in the native hormone. Results indicated that in LDV-infected CBA/Ht mice the titres of anti-hGH Ab were lower than in controls, although a consistent isotypic shift to IgG2a subclass was observed. Concurrently, the presence of Ab to epitopes 3C11, F11 and/or 10D6 were markedly reduced in infected animals and most anti-hGH Ab were directed to hGH cryptic epitopes. By contrast, LDV infection increased the amount of anti-KLH Ab elicited by CBA/Ht mice and did not affect Ab specificity, whilst control and LDV-infected BALB/c mice showed similar concentrations of anti-hGH Ab. Furthermore, the proportion of Ab to cryptic hGH epitopes did not change in infected animals even though an important shift to IgG2a was detected. Thus, data presented herein suggest that LDV infection modifies Ab specificity depending on the mice genetic background and on the antigenic characteristics of the immunogen.

Synergistic monoclonal antibodies' interactions and their use for determination of antibody specificities.

Three monoclonal antibodies (MAb 3C11, F11 and 10D6) to human growth hormone (hGH) recognize independent epitopes and show mutually enhancing properties. Thus, 125I-hGH binding to each of these MAb augmented significantly in the presence of each one of the other two MAb. Moreover, preincubation of the hormone with paired MAb gave rise to ternary complexes (Ag:Ab1:Ab2) which bound better than the free tracer to the third MAb previously captured on a solid-phase. Highly stable quaternary complexes (Ag:Ab1:Ab2:Ab3) were thus formed. Since Fab fragments from the three MAb displayed the same behavior as the whole Ab molecule, neither the formation of multimolecular cyclic complexes nor the occurrence of interactions through Fc fragments could explain the reciprocal MAb binding enhancement. Therefore, the results obtained suggest that MAb 3C11, F11 and 10D6 produce some modification in the Ag, each one improving the binding of the two other MAb. Additionally, the inhibition of the formation of quaternary complexes between the MAb and hGH was used to evaluate specific Ab populations in polyclonal antisera, avoiding the masking effect of enhancing Ab. The results obtained indicate that Ab directed to the hGH antigenic domains defined by MAb 3C11, F11 and 10D6 could be detected in spite of the presence of enhancing Ab to all three MAb.