Effect of antibody to the hemin-controlled translational repressor in rabbit reticulocyte lysate

We have examined the effect of the purified IgG from the serum of guinea pigs immunized with a highly purified preparation of rabbit reticulocyte, hemin-controlled translational repressor (HCR) on protein synthesis in the reticulocyte lysate. We have found that the anti-HCR (but not non-immune) IgG completely prevents or reverses the suppression of protein synthesis that occurs in hemin-deficient lysate, providing a direct and definitive demonstration that the inhibitory effect of hemin-deficiency is mediated solely by the activation of HCR. The anti-HCR IgG also prevents or reverses the phosphorylation of eIF-2 alpha and the reduced binding of Met-tRNAf to 40 S ribosomal subunits that accompanies the inhibition of protein synthesis in hemin-deficient lysate. In contrast, the anti-HCR IgG has no effect on the inhibition produced by low levels of double-stranded RNA (that is due to the activation of a separate protein kinase), but it does partly reverse inhibition due to oxidized glutathione, ethanol, and phosphatidylserine, indicating that the effect of these components is mediated, at least in part, by the activation of HCR. Finally, we have confirmed our earlier observation that an excess of proHCR, the inactive precursor of HCR, has little effect on the neutralization of HCR by limiting anti-HCR IgG, suggesting that the antigenic determinants on HCR are not exposed on ProHCR.     

Additional evidence that the hemin-controlled translational repressor from rabbit reticulocytes is a protein kinase

Recent reports have suggested that the hemin-controlled translational repressor (HCR) which mediates the hemin control of protein synthesis in reticulocyte lysates, acts as a specific protein kinase, phosphorylating a subunit of the Met-tRNA_f binding factor (IF-1). We have found that crude and highly purified HCR can phosphorylate a 38,000 molecular weight component of IF-1, but that crude prorepressor (the precursor of HCR), which is not inhibitory, does not phosphorylate this component. Prolonged warming of the prorepressor induces the formation of the inhibitor and the protein kinase that phosphorylates the 38,000 molecular weight protein, and the formation of both is blocked by hemin. In addition, a brief incubation of the prorepressor with N-ethylmaleimide, which produces maximal inhibitory activity within 5 minutes, also induces formation of the protein kinase. These findings suggest that HCR and the protein kinase are the same protein and provide additional support for the concept that HCR controls protein synthesis by phosphorylating the Met-tRNA_f binding factor.     

Antigenic determinants of senescent antigen of human erythrocytes are located in sialylated carbohydrate chains of Band 3 glycoprotein.

Naturally occurring IgG autoantibody against Band 3 glycoprotein of human erythrocyte membrane (anti-Band 3) recognizes the erythrocytes modified with oxidizing or SH-blocking agents as well as senescent erythrocytes. Location of the antigenic determinants of Band 3 this autoantibody recognizes was investigated by competitive inhibition studies of the antibody binding to the modified cells. Autologous IgG binds to the modified erythrocytes, and purified Band 3 totally inhibits the binding. This inhibitory activity of Band 3 was not affected by digestion of Band 3 with various proteases. Treatment of Band 3 with endo-beta-galactosidase that destroys the poly-N-acetyllactosaminyl sugar chain of Band 3 or with neuraminidase resulted in loss of the inhibitory activity. Oligosaccharides released from Band 3 by hydrazinolysis effectively inhibited the binding of autologous IgG and 125I-labeled purified anti-Band 3 to the modified cells, whereas the oligosaccharides depleted of acidic components did not. Endo-beta-galactosidase and neuraminidase destroyed the activity of the oligosaccharides, but alpha-L-fucosidase did not. Furthermore, human lactoferrin that contains sialylated two N-acetyllactosaminyl units also exhibited potent inhibitory activity, and the activity was destroyed by endo-beta-galactosidase and neuraminidase. These results indicate that the antigenic determinants of Band 3 are located in sialylated poly-N-acetyllactosaminyl sugar chains. Based on this finding, mechanism of appearance of the antigen on senescent erythrocytes recognized by anti-Band 3 (senescent antigen) was discussed.     

Reversal of the inhibitory action of the hemin-controlled translational repressor by a post-ribosomal supernatant factor from rabbit reticulocyte lysate.

The inhibitory effect of the hemin-controlled translational repressor (HCR) on protein synthesis by rabbit reticulocyte lysates can be overcome by a factor in the post-ribosomal supernatant fraction. When chromatographed on Sepharose 6B, this supernatant factor migrates as a high molecular weight component that is distinct from the precursor of HCR (prorepressor). The supernatant factor does not appear to act by enzymatically degrading the repressor or by forming a stoichiometric complex with it, but may, rather, replace what has become limiting for protein synthesis due to repressor action.     

Autogenous Immunity to Endogenous RNA Tumor Virus: Differential Reactivities of Immunoglobulins M and G to Virus Envelope Antigens

The autogenous humoral immune response of mice to their endogenous leukemia virus has been examined in terms of the reactivities of individual classes of antibody present in normal B6C3F(1) serum. Whole serum and the immunoglobulin (Ig) M and IgG fractions of serum from animals of different age groups were compared by radioimmune precipitation assays and viral infectivity neutralization assays. Both IgM and IgG fractions were able to precipitate virus, although not as effectively as whole serum. Virus-specific antibody levels, as well as total antibody concentrations in whole serum, appeared to increase with age. Sodium dodecyl sulfate gel electrophoresis analysis was performed with immune precipitates obtained when whole serum or 19 or 7S fractions from animals of different age groups were reacted with disrupted virus. The 19S antibody fraction reacted with three antigenic determinants on the viral envelope. These antigens have apparent molecular weights of 17,000, 43,000, and 68,000. The last two appear to be glycoproteins and may correspond to the M(2) and M(1) antigens. In contrast, the 7S component reacted only with the 17,000-molecular-weight protein. Neutralization assays against BALB:virus-2, a xenotropic endogenous mouse type C virus, revealed that 19S and whole serum but not the 7S fraction possessed neutralizing activity. These findings indicate that there are differential reactivities of IgM and IgG antibodies in normal serum of B6C3F(1) mice, with respect to both recognition of viral envelope antigens and neutralization of endogenous MuLV. These results are consistent with the hypothesis that the autogenous humoral immune response is a systemic host function that may be important in the regulation of endogenous type C virus expression in vivo.     

Radioimmunoassay of human serum antibody specific for adenovirus type 5-purified fiber.

A radioimmunoassay (RIA), utilizing a second antibody to separate immune complexes, was developed to provide a sensitive and specific measure of serum antibody to adenovirus type 5 (Ad 5) fiber. Purity of fiber antigen was ascertained by sodium dodecyl sulfate urea-polyacrylamide gel electrophoresis and isoelectric focusing in ampholyte pH gradients. After labeling with 125I to high specific activity, the iodinated fiber did not exhibit loss of antigenic reactivity and remained stable for 3 weeks when stored at minus 20 degrees C with supplemental protein. Rabbit anti-Ad 5 serum with a neutralization titer of 1:320 precipitated 50% of the labeled fiber at a serum dilution of 1:50,000 when tested by the RIA. In competition assays as little as 0.5 ng of unlabeled fiber per millimeter was sufficient to inhibit the 125I fiber-antibody reaction. Serum specimens from 20 volunteers, obtained before and after vaccination with purified Ad 5 fiber or hexon subunit vaccine, were tested by RIA, hemagglutination-inhibition (HI), and neutralization tests. A comparison of mean antibody titers of post-inoculation sera showed that the RIA was 300 and 1000 times more sensitive than the HI and neutralization tests, respectively. Moreover, 19 of the men who were negative by the standard serologic tests before vaccination were shown to have anti-fiber antibody, with a mean RIA titer of 1:1028. Specificity of the RIA was demonstrated by the lack of an increase in antibody to Ad 5 fiber among those individuals vaccinated with the hexon subunit. Thus, the development of a highly sensitive and reproducible RIA allows for the detection of antibody specific for the Ad 5 fiber in serum which contains antibodies to the different virion antigenic determinants associated with Ad 5.     

Identification of an antigenic determinant on the S2 domain of the severe acute respiratory syndrome coronavirus spike glycoprotein capable of inducing neutralizing antibodies

Severe acute respiratory syndrome (SARS) is a life-threatening disease caused by a newly identified coronavirus (CoV), SARS-CoV. The spike (S) glycoprotein of CoV is the major structural protein responsible for induction of host immune response and virus neutralization by antibodies. Hence, knowledge of neutralization determinants on the S protein is helpful for designing protective vaccines. To analyze the antigenic structure of the SARS-CoV S2 domain, the carboxyl-terminal half of the S protein, we first used sera from convalescent SARS patients to test the antigenicity of 12 overlapping fragments spanning the entire S2 and identified two antigenic determinants (Leu 803 to Ala 828 and Pro 1061 to Ser 1093). To determine whether neutralizing antibodies can be elicited by these two determinants, we immunized animals and found that both of them could induce the S2-specific antisera. In some animals, however, only one determinant (Leu 803 to Ala 828) was able to induce the antisera with the binding ability to the native S protein and the neutralizing activity to the SARS-CoV pseudovirus. This determinant is highly conserved across different SARS-CoV isolates. Identification of a conserved antigenic determinant on the S2 domain of the SARS-CoV S protein, which has the potential for inducing neutralizing antibodies, has implications in the development of effective vaccines against SARS-CoV.     

A newly described activity of guinea pig IgG1 antibodies: transfer of cutaneous basophil reactions.

Hapten-specific delayed time course skin reactions containing predominant accumulations of basophils and eosinophils were elicited in newborn guinea pigs after i.v. transfer of small amounts of oxazolone immune serum. The immune serum was fractionated by column chromatography procedures, and the fractions were examined for their ability in transferring this form of cutaneous basophil hypersensitivity (CBH). Only the 7S IgG-containing peak from Sephadex G-200 columns, and only the IgG1-containing fractions from DEAE columns, transferred CBH. An affinity column of bound oxazolone removed the activity from immune serum, and it could be recovered from the column by eluting with soluble oxazolone. About 35 microgram of purified IgG1 anti-oxazolone antibody could systemically transfer CBH reactivity. An immunoadsorbant column of anti-IgG1 removed this activity, but a column of anti-IgG2 did not. None of the procedures were able to separate activity in transferring CBH from passive cutaneous anaphylactic (PCA) activity classically associated with guinea pig IgG1 antibody. IgG1 from 8-day immune and 31-day hyperimmune donors were both effective. The average association constant of 8-day antibody was 8 X 10(-4) M-1. Transfer of cutaneous basophil reactions can be mediated by low affinity serum 7S IgG1 antibody.     

Characterization of primary isolate-like variants of simian-human immunodeficiency virus

Several different strains of simian-human immunodeficiency virus (SHIV) that contain the envelope glycoproteins of either T-cell-line-adapted (TCLA) strains or primary isolates of human immunodeficiency virus type 1 (HIV-1) are now available. One of the advantages of these chimeric viruses is their application to studies of HIV-1-specific neutralizing antibodies in preclinical AIDS vaccine studies in nonhuman primates. In this regard, an important consideration is the spectrum of antigenic properties exhibited by the different envelope glycoproteins used for SHIV construction. The antigenic properties of six SHIV variants were characterized here in neutralization assays with recombinant soluble CD4 (rsCD4), monoclonal antibodies, and serum samples from SHIV-infected macaques and HIV-1-infected individuals. Neutralization of SHIV variants HXBc2, KU2, 89.6, and 89.6P by autologous and heterologous sera from SHIV-infected macaques was restricted to an extent that these viruses may be considered heterologous to one another in their major neutralization determinants. Little or no variation was seen in the neutralization determinants on SHIV variants 89.6P, 89.6PD, and SHIV-KB9. Neutralization of SHIV HXBc2 by sera from HXBc2-infected macaques could be blocked with autologous V3-loop peptide; this was less true in the case of SHIV 89.6 and sera from SHIV 89.6-infected macaques. The poorly immunogenic but highly conserved epitope for monoclonal antibody IgG1b12 was a target for neutralization on SHIV variants HXBc2, KU2, and 89.6 but not on 89.6P and KB9. The 2G12 epitope was a target for neutralization on all five SHIV variants. SHIV variants KU2, 89.6, 89.6P, 89.6PD, and KB9 exhibited antigenic properties characteristic of primary isolates by being relatively insensitive to neutralization in peripheral blood mononuclear cells with serum samples from HIV-1-infected individuals and 12-fold to 38-fold less sensitive to inhibition with recombinant soluble CD4 than TCLA strains of HIV-1. The utility of nonhuman primate models in AIDS vaccine development is strengthened by the availability of SHIV variants that are heterologous in their neutralization determinants and exhibit antigenic properties shared with primary isolates.     

Study of the immunological properties of Actinomyces rimosus ribonuclease]

The immunological properties of ribonucleases from Act. rimosus were studied in comparison with RNA-ase from the cattle pancreas. The activity of anti-RNA-ase immune sera were determined by the method of specific neutralization of the effect of the above exzymes. The results of the study showed that with the use of homological RNA-ases as the antigens, the maximum level of enzymatic activity neutralization by the immune sera ranged within 70 to 90% and the capacity for induction of specific antibody production expressed in the serum titer was somewhat lower in the actinomycete RNA-ase than in the pancreatic one. When heterological antigens were used, neutralization of the RNA-ase effect by the immune sera was either not detectable or very low which is indicative of the antigenic differences in the actinomycete and pancreatic RNA-ases.     

Redundancy and plasticity of neutralizing antibody responses are cornerstone attributes of the human immune response to the smallpox vaccine

The smallpox vaccine is widely considered the gold standard for human vaccines, yet the key antibody targets in humans remain unclear. We endeavored to identify a stereotypic, dominant, mature virion (MV) neutralizing antibody target in humans which could be used as a diagnostic serological marker of protective humoral immunity induced by the smallpox vaccine (vaccinia virus [VACV]). We have instead found that diversity is a defining characteristic of the human antibody response to the smallpox vaccine. We show that H3 is the most immunodominant VACV neutralizing antibody target, as determined by correlation analysis of immunoglobulin G (IgG) specificities to MV neutralizing antibody titers. It was determined that purified human anti-H3 IgG is sufficient for neutralization of VACV; however, depletion or blockade of anti-H3 antibodies revealed no significant reduction in neutralization activity, showing anti-H3 IgG is not required in vaccinated humans (or mice) for neutralization of MV. Comparable results were obtained for human (and mouse) anti-L1 IgG and even for anti-H3 and anti-L1 IgG in combination. In addition to H3 and L1, human antibody responses to D8, A27, D13, and A14 exhibited statistically significant correlations with virus neutralization. Altogether, these data indicate the smallpox vaccine succeeds in generating strong neutralizing antibody responses not by eliciting a stereotypic response to a single key antigen but instead by driving development of neutralizing antibodies to multiple viral proteins, resulting in a "safety net" of highly redundant neutralizing antibody responses, the specificities of which can vary from individual to individual. We propose that this is a fundamental attribute of the smallpox vaccine.     

Biochemical and immunological identity of the hepatic peroxisomal and microsomal trans-2-enoyl CoA hydratase bifunctional protein

In the present study, the hepatic microsomal and peroxisomal bifunctional trans-2-enoyl CoA hydratases were isolated and purified from rats treated with 2% di-(2-ethylhexyl)phthalate for 8 days. These two enzymes (microsomal and peroxisomal) were purified with the identical purification procedures and had identical molecular masses of 76 kDa. A single band was observed on an electrophoretic gel of an equimixture of the two proteins. Both preparations had identical pI's of 8.6 and pH optima of 6.0 for the dehydrogenase (reductase) and 7.5 for the hydratase activity. Two-dimensional gel analysis of an equimixture of the two preparations showed only one band. Ouchterlony double-diffusion analysis showed that an antibody raised against the purified microsomal enzyme interacted at a point with the peroxisomal enzyme, indicating immunologic identity. Western blot analysis demonstrated that the antibody formed a single band with total microsomal and peroxisomal fractions. The antibody inhibited the enzymatic activities of both preparations in a similar manner. Interestingly, the antibody had a markedly greater inhibitory effect on the reductase activity of the two enzyme preparations, and a much less inhibitory effect on the hydratase activity, suggesting that the antigenic determinants reside at or near the catalytic site of the reductase portion of the protein. These results suggest that the microsomal and peroxisomal bifunctional proteins are identical.     

Characteristics of the immunologic response of animals to Clostridium perfringens anatoxin]

Experiments were conducted on guinea pigs, rabbits and mice (mongrel and inbred); immunogenic properties of Cl. perfringens toxoids of different purity were studied. Toxin neutralization and passive hemagglutination tests were used to determine the antitoxic immunity level. It appeared that in the immunization of guinea pigs and rabbits the degree of immunogenicity of the preparations increased with the elevation of their specific activity. Under the same conditions both the mongrel and the inbred mice displayed the maximum immune response in the immunization with the least purified preparations, and the minimum after the injection of a highly purified antigen.     

The cellular location of a foreign B cell epitope expressed by recombinant bacteria determines its T cell-independent or T cell-dependent characteristics.

We have targeted two foreign B cell antigenic determinants to different locations in the Escherichia coli cell to examine what effect this had on antibody responses elicited by the recombinant bacteria. The two epitopes were the 132-145 peptide from the PreS2 region of hepatitis B virus and the C3 neutralization epitope of poliovirus type 1. They were each expressed in two forms either on the surface, as part of the outer-membrane protein LamB, or soluble in the periplasm, as part of the periplasmic protein MalE. When live bacteria expressing the foreign epitope at the cell surface were used for immunization of mice, they induced T cell-independent antibody responses characterized by a rapid induction of IgM and IgG antibodies. In contrast, when the same foreign epitope was inserted into the MalE protein, the antibody response was only detectable after 3 wk, belonged only to the IgG class and was strictly T cell dependent. This study has therefore identified two major pathways by which epitopes expressed by bacterial cells can stimulate specific antibody responses. The first pathway is mediated by direct activation of B cells by bacterial cell-surface Ag and does not require T cell help. The second pathway is T cell dependent and concerns Ag that can be released from the bacteria in a soluble form. We have also studied the effect of the exact position of the B cell antigenic determinant within the LamB protein and with respect to the outer membrane by comparing the immunogenicity of the PreS epitope inserted at three different permissive sites of LamB. The data indicated that to obtain an antibody response with intact bacteria, the epitope must be protruding sufficiently from the outside of the outer membrane. In contrast, when semipurified hybrid proteins were used as immunogen, the exact position of the B cell antigenic determinant within solubilized LamB protein does not influence its immunogenicity.     

Evidence for shared antigenic determinants on rabbit and human interleukin 1 (IL 1)

An antiserum to human interleukin 1 (IL 1) was prepared by immunizing a goat with the isoelectric point (pI) 6.9 type of IL 1 in Freund's complete adjuvant. Serum-mediated inhibition of the biological activity of IL 1 appeared within 4 wk after the first immunization, and showed a progressive rise in titer over a 9-mo period. The inhibitory moiety was purified by sequential ammonium sulfate fractionation and DEAE-Sephacel ion exchange chromatography, and the activity was found to co-purify with the IgG fraction of the serum. The antibody neutralized the biological activity of the pI 6.9 type of human IL 1 derived from either human placental tissue or human peripheral blood adherent cells, but did not neutralize the pI 5.2 type of IL 1 derived from either source. When used as an affinity reagent, the antibody selectively absorbed the pI 6.9 human IL 1, but not the pI 5.2 human IL 1. Furthermore, the antibody neutralized the pI 7.4 type of IL 1 derived from rabbit alveolar macrophages, but had no activity against the pI 4.6 IL 1 derived from the same source. No inhibitory activity against rat spleen cell-derived IL 1 or murine P388D1 cell line-derived IL 1 was detected. These experiments support the concept that the differing pI types of IL 1 derived from the same species are both biochemically and antigenically distinct molecules, and IL 1 of similar pI type derived from different species may share antigenic determinants.     

Immunochemical properties of the aminopropeptide of procollagen type III

The precursor-specific aminopropeptide of bovine type III procollagen is a strong immunogen in rabbits, guinea pigs and mice and induces antibodies which do not cross-react with type I procollagen. The antibody response is regulated by immune response genes associated with the major histocompatibility complex. Major antigenic determinants were found in the compact, non-collagenous domain (fragment Col 1) located at the N terminus of the aminopropeptide and were destroyed by reduction of disulfide bonds. Minor antigenic determinants independent of disulfide bonds also exist in fragment Col 1 and could be localized on a distinct tryptic peptide. Fragment Col 1 showed a lower affinity for antibody when compared with the intact aminopropeptide which causes a non-parallel shift in radioimmuno-inhibition profiles. Monovalent antibody fragments showed an average tenfold reduction in affinity constant and failed to distinguish between aminopropeptide and fragment Col 1. This indicates that the stronger binding of bivalent antibody by the triple-stranded aminopropeptide is due to multiple interactions with both antibody binding sites which are lost for a single-stranded antigen (Col 1) or with monovalent antibody fragments.     

Putative Cholinergic-Specific Gangliosides in Guinea Pig Forebrain

The nature of the cholinergic-specific antigen Chol-1 recognized by an antiserum raised against Torpedo cholinergic electromotor synaptosomal plasma membranes was investigated in guinea pig forebrain to establish whether it has a gangliosidic nature in guinea pig as in Torpedo. Gangliosides extracted from guinea pig forebrain and extensively purified to eliminate peptide contaminants were effective in inhibiting the selective lysis of the cholinergic subpopulation of cortical synaptosomes induced by the antiserum. Neuraminidase, protease, alkali, and heat treatment did not impair the inhibitory activity of gangliosides. Whereas the antiserum recognized many gangliosides from Torpedo electric organ, the immunostaining of guinea pig forebrain gangliosides separated on TLC showed only two immunopositive bands migrating close to GT1b and GQ. After affinity purification on Torpedo electric organ gangliosides the activity of the antiserum in inducing complement-mediated lysis was increased and it still recognized the two ganglioside bands on TLC. These results strongly suggest the existence of two polysialogangliosides bearing antigenic determinants specific for the cholinergic neurons.     

The effectiveness of different rat IgG subclasses as IgE-blocking antibodies in the rat basophil leukaemia cell model

The degranulation of mast cells in an allergic response is initiated by the aggregation of high-affinity IgE receptors (Fc epsilon RI) by IgE and antigen. Recently it has been shown that such degranulation can be inhibited by cross-linking Fc epsilon RI and low-affinity IgG receptors (Fc gamma RII) which are also expressed by mast cells. The ability of various monoclonal antibodies to block the degranulation of rat basophil leukaemia (RBL) cells sensitized with IgE antidinitrophenyl (DNP) antibodies has been investigated. Sensitized cells were challenged with immune complexes formed using varying concentrations of antigen, and of both high- and low-valency antigen. It is reported here that rat IgG1 antibodies, which are associated in the rat with a Th1-type response, act as highly effective blocking antibodies over a wide concentration range. Rat IgG2a antibodies, which are associated with a Th2-type response, were able only to inhibit degranulation when immune complexes were formed with very low concentrations of high-valency antigen (DNP32-HSA). Under these conditions, some inhibitory activity was seen with high-affinity murine IgA anti-DNP but not with low-affinity rat IgG2b anti-DNP antibody-containing immune complexes. In addition to this inhibitory activity, IgG2a antibodies were shown to be capable of inducing degranulation of cells via unoccupied Fc epsilon RI. These results demonstrate that blocking activity may arise via both inhibitory receptors and by masking of antigen.     

Localization of renal and intestinal trehalase with immunofluorescence- and enzyme-labeled antibody techniques

The localization of trehalase with fluorescein isothiocyanate-conjugated and peroxidase-conjugated antibody techniques was examined. Antiserum against purified rabbit renal trehalase was produced against guinea pigs. Anti-renal trehalase immunoglobulin (Ig)G was isolated from the serum and used for the immunohistochemical localization of intestinal and renal trehalases. Specific fluorescence and peroxidase staining were observed in the brush borders of proximal tubules and of intestinal epithelial cells. These results are in good agreement with the biochemical results. Thus, it is concluded that trehalase is specifically localized in the renal and intestinal brush borders. Sections of rabbit intestine and of rabbit kidney treated with anti-rabbit renal trehalase IgG were observed to have a specific fluorescence at the brush borders. Sections of rat intestine treated with the same antibody, however, showed no specific fluorescence at the brush borders. From these results, it is strongly suggested that renal trehalase and intestinal trehalase from the rabbit have common antigenic determinants and that these differ from those in rat intestinal trehalase.     

IgE antibody-mediated cutaneous basophil hypersensitivity reactions in guinea pigs

Cutaneous basophil hypersensitivity (CBH) reactions are a heterogeneous group of delayed time course basophil-rich immune responses that can be mediated in the guinea pig by T cells, B cells, or IgG1 antibody. This study examined whether guinea pig IgE antibody could also mediate CBH reactions. IgE antibody to picryl or oxazolone determinants was induced by immunizing Hartley strain guinea pigs pretreated with cyclophosphamide. Hyperimmune serum from these animals was passed through a heavy chain-specific anti-IgG1 affinity column. The presence of IgE anti-hapten antibody in the filtrate fraction was verified by passive cutaneous anaphylaxis (PCA) testing with a 7-day period of local passive sensitization and by the heat lability (56 degrees C, 4 hr) of PCA activity. This IgE-rich fraction and the IgG1 fraction eluted from the column with base (0.2 M Na2CO3, pH 11.3) were transferred i.v. to separate groups of normal guinea pigs. Both fractions mediated delayed time course reactions that contained basophils. Macroscopic and microscopic reactions mediated by the IgE-rich fraction were abolished with heat (56 degrees C, 4 hr). Thus, two antigen-specific factors in guinea pig serum can mediate delayed time course basophil-containing reactions: IgG1 and IgE antibodies. IgE-mediated CBH reactions are similar to the late-phase reaction that follows IgE-dependent wheal-and-flare reactions in humans. The finding that guinea pig IgE can mediate a late reaction that contains basophils makes this a possible model for the human late-phase response, and suggests that some forms of CBH may play a role in human allergic disease.