Strain differences in the development of auto-anti-idiotypic antibody regulation with age: genetic linkage to the Igh-C locus

The effect of age on the appearance of anti-idiotype (Id)-blocked, hapten-augmentable plaque-forming cells (PFC) in various strains of mice was investigated. Strains of mice at 2 and 6-11 months of age were immunized with 500 micrograms trinitrophenylated bovine gamma-globulin (TNP-BGG) in complete Freund's adjuvant (CFA) intraperitoneally. Splenic IgM and IgG anti-TNP PFC responses were assayed for anti-Id-blocked, hapten-augmentable PFC 14 days after immunization. It was found that strains differ with regard to the age at which they produce anti-Id-blocked, hapten-augmentable PFC. C57BL/6J (B6), DBA/1J, and C3H/HeJ mice produced a significantly high percentage of hapten-augmentable IgG anti-TNP PFC at 8-9 months of age as compared with the 2-month-old group. In contrast, 129/J, AKR/J, and C57L/J mice produced a significantly low percentage of hapten-augmentable PFC at 6-7 months of age as compared with the 2-month-old group. The CBA/J mice were high-hapten-augmentable plaque producers at both 2 and 7 months of age. SJL/J mice were, on the other hand, low producers at 2 and 11 months of age. Immune sera from high hapten-augmentable plaque-producing strains caused a hapten-reversible block of plaque formation by spleen cells from TNP-BGG-immune C57BL/6J mice and also revealed anti-(anti-TNP F(ab')2-IgG) titer as assayed by passive hemagglutination. This PFC-inhibiting activity in the immune sera of old C57BL/6J mice was an antibody of the IgG2a and IgG3 classes, lacked anti-TNP antibody activity, but reacted with anti-TNP antibody of C57BL/6J origin. Genetic analysis between high hapten-augmentable plaque production and allotypes in the (129/J X B6) crosses of the same H-2b haplotypes revealed that all of the backcrosses and F2 with high hapten-augmentable plaque production had the Igh-1a allele of the high-producer, 129/J mouse. In contrast, the crosses with low hapten-augmentable plaque production were homozygous for the Igh-1b allele of the low-producer, B6 mouse. The data suggest strain differences in the development of auto-anti-idiotypic antibody regulation with age which may be controlled by a gene(s) linked to the Igh-C locus.     

Production of auto-anti-idiotypic antibody during the normal immune response. XII. Enhanced auto-anti-idiotypic antibody production as a mechanism for apparent B-cell tolerance in rabbits after feeding antigen

Rabbits fed trinitrophenylated bovine serum albumin (TNP-BSA) generated fewer anti-TNP plaque-forming cells but greater numbers of hapten (TNP)-augmentable IgM and IgG PFC following immunization with TNP-Ficoll or TNP-Brucella abortus than did animals not previously fed antigen. Spleen and mesenteric and bronchial lymph nodes were similarly affected. In addition more auto-anti-idiotype (Id) antibody (anti-anti-TNP) was eluted by hapten from spleen cells of antigen-fed rabbits than from spleen cells of control rabbits not prefed antigen. Gel filtration studies ruled out the possibility that the Id binding activity in the eluates was due to immune complexes. The isotype of the anti-Id was IgG except in one rabbit where it was IgM. The results are consistent with the interpretation that the production of auto-anti-Id antibody is one of the factors responsible for the specific depression of the IgM and IgG immune responses which follows antigen feeding. In contrast the antigen feeding resulted in priming for an IgA anti-TNP response without detectable hapten-augmentable IgA PFC.     

Studies of immune responses in mice prone to autoimmune disorders. II. Decreased down-regulation by auto-anti-idiotype antibody in autoimmune-prone mice

Three lines of evidence are presented which suggest that autoimmune-prone mice are deficient in the production of auto-anti-idiotype antibody during their immune response to trinitrophenylated Ficoll (TNP-F). NZB, MRL lpr/lpr and older BXSB male mice have no hapten-augmentable plaque-forming cells (PFC). Hapten-augmentable PFC have been previously shown to be cells whose secretion of antibody has been inhibited by the binding of auto-anti-idiotype antibody to cell surface idiotype. Sera from TNP-F immunized NZB mice lack PFC inhibiting activity (anti-idiotype antibody). Spleen cells from TNP-F immune NZB mice fail to transfer anti-idiotype antibody-mediated suppression to naive mice as do spleen cells from immune non-autoimmune-prone mice. Taken together these data suggest that autoimmune-prone mice are deficient in auto-anti-idiotype antibody-mediated downward regulation of their immune responses. It was further shown that the immune response of NZB mice to TNP-F shows a slower decline in splenic PFC and a greater heterogeneity of PFC affinity than do the responses of non-autoimmune-prone strains. Since athymic (nude) mice, which were previously shown to be defective in the production of auto-anti-idiotype antibody, also show a slower decline in splenic PFC and an increased heterogeneity of PFC affinity, it is suggested that these peculiarities of the immune responses of autoimmune-prone and athymic mice are also the consequences of the lack of auto-anti-idiotype antibody-mediated down-regulation.     

Production of auto-anti-idiotypic antibody during the normal immune response. VIII. Effect of auto-anti-idiotypic antibody on contact sensitivity

An eluate prepared by brief incubation of spleen cells from 2,4,6-trinitrophenyl (TNP) lysyl-Ficoll immunized mice with TNP-epsilon-amino-n-caproic acid causes a specific inhibition of the induction of contact sensitivity by 2,4,6-trinitrochlorobenzene skin painting. The active factor in the eluate binds to an anti-mouse immunoglobulin (Ig) immunoadsorbent column but not to a TNP immunoadsorbent column and is therefore Ig but not anti-TNP antibody. The active factor does bind to an immunoadsorbent prepared from anti-TNP antibody, suggesting that the factor has anti-idiotype specificity. Evidence based upon hapten-reversible inhibition of plaque formation and an enzyme-linked immunosorbent assay (ELISA) indicates that the eluates contain auto-anti-idiotype antibody specific for anti-TNP antibody. It is suggested that auto-anti-idiotype antibody spontaneously produced during the immune response to a T-independent antigen can specifically downregulate contact sensitization to the same epitope.     

Affinity and distribution of subpopulations of antibody-producing cells in protein-restricted C57BL/6 mice

To study the effect of protein restriction on the affinity of antibodies produced by plaque-forming cells (PFC), C57BL/6 mice were fed diets containing 4% (R4%), 8% (R8%), or 27% (N) casein for 2 (short-term) or 12 (long-term) weeks and immunized with dinitrophenyl (DNP) bovine gamma-globulin in complete Freund's adjuvant. Affinity was assessed by inhibition of plaque formation in the presence of free hapten. Anti-DNP PFC per 10(7) spleen cells were not diminished in short- and long-term R8% mice, and were increased in the former group at certain times after immunization. Affinity of indirect PFC was increased at Days 14 and 21 after immunization in short-term R8% mice and at Day 7 in R4% mice, and was similar in long-term R8% and N animals. No limitation in the heterogeneity of PFC affinities was observed in the restricted groups. Short-term restricted mice showed a rise of the high-affinity PFC subpopulation. The number of mice with hapten-augmentable PFC was diminished in the short-term R8% group at 7 days after immunization and in long-term restricted mice at 14 days, suggesting depressed levels of auto-anti-idiotypic antibodies in protein restriction.     

Immunosuppression induced by attenuated Salmonella. Reversal by IL-4

We previously demonstrated that an aroA- strain of Salmonella typhimurium, which provides excellent protection against virulent Salmonella challenge, also rendered immunized mice unable to mount in vivo and in vitro antibody responses to heterologous Ag. Coculture studies using transwell plates indicated that suppression was mediated by soluble factors. The suppressive cells were identified as belonging to the monocytic linkage. Macrophage precursors as well as mature adherent macrophages mediated the observed suppression. In the present study, the mechanism of immunosuppression was investigated. Suppression was found to be genetically nonrestricted as spleen cells from immunized C3HeB/FeJ mice (H-2k) suppressed the anti-SRBC plaque-forming cell (PFC) responses of normal spleen cells from two MHC noncompatible mouse strains, BALB/c (H-2d) and C57BL/6 (H-2b). Time course experiments demonstrated that the addition of spleen cells from immunized mice to normal splenocytes as late as day 4 of a 5-day assay was still markedly suppressive. Furthermore, suppression of the PFC responses was accompanied by a profound inhibition of the capacity of immune splenocytes to produce IL-2 in response to in vitro stimulation by Con A. Coculture studies showed that immune spleen cells were able to suppress IL-2 production by normal splenocytes in a dose-dependent fashion. However, the suppressed PFC responses of immune spleen cells could not be reversed by the exogenous addition of up to 200 U/ml of IL-2, suggesting that immune splenocytes are also defective in their ability to respond to IL-2. In marked contrast, suppression of PFC responses was reduced by more than 50% by the addition of as little as 1 U/ml of IL-4 and was completely abrogated when 5 U/ml of IL-4 were added to in vitro cultures of spleen cells from immunized mice. The antisuppressive action of IL-4 appeared to be via its inhibitory effect on activated macrophages. The implications of the above findings are discussed.     

The chicken's femoral-lymph nodules: T and B cells and the immune response.

Femoral lymph nodules (FLN), which are barely perceptible in normal birds, after a footpad injection of sheep red blood cells (SRBC) may either significantly enlarge (responder) or remain reduced in size (nonresponder). There were approximately 38% T cells and 53% B cells in the FLN of responder chickens. Significantly more plaque-forming cells (PFC) developed in the FLN than in the spleen after a footpad injection of SRBC. Total antibody, mercaptoethanol- (ME) resistant, and ME-sensitive fractions were significantly higher in birds given i.v. than in those given footpad injections. There were no differences in PFC and agglutinin titers between FLN-responders and nonresponders. The number of PFC in FLN exceeded the number of splenic PFC previously reported. The high PFC response of the FLN may reflect the large percentage of B cells in this lymphomyeloid tissue or the presence of antigen-experienced B cells in the FLN. Although FLN may influence a systemic immune response its major role appears to be restricted to a local response.     

Studies of the immunological capacity of germfree mouse radiation chimeras. III. In vitro reconstitution of the T-helper cell deficiency

The plaque-forming cell (PFC) response of long-term radiation induced allogeneic bone marrow chimeric (ABMC) mice has been shown to be markedly deficient. The nature of the cellular deficiency of the primary PFC response was investigated using in vitro culture techniques. Adherent spleen cells from ABMC or DBA/2 mice support equally well the development of PFC from nonadherent DBA/2 spleen cells. Nonadherent cells prepared from ABMC mice when cocultivated with DBA/2 adherent cells showed a minimal response. However, the addition of activated DBA/2 T cells to cultures containing adherent cells from DBA/2 mice and nonadherent cells from ABMC mice completely reconstituted the in vitro response to sheep erythrocytes. Therefore a cellular deficiency of the humoral immune system of ABMC mice was shown to be associated with the thymus-derived lymphocyte pool.     

In vitro studies of the rabbit immune system: I. Hemolytic plaque-forming response of dissociated spleen cells from normal and primed rabbits

The conditions for the in vitro generation of primary and secondary immune responses by rabbit spleen cells to sheep red blood cell (SRBC) antigen have been examined. Spleen cells from many normal and all previously immunized rabbits are capable of producing in vitro plaque-forming cell (PFC) responses when cultured as dissociated cell suspensions in the presence of antigen. Primed spleen cells generate approximately 100 times the number of PFCs obtained in normal cultures with a shorter lag period. Both types of cultures demonstrate a period of exponential increase in PFCs during which the doubling time is 12–14 hr. This increase occurs after 1 day of culture of spleen cells from primed rabbits and after 4 days of culture of spleen cells from unprimed rabbits. The PFCs which arise in cultures of primed cells appear not to be the progeny of those generated in vivo but to be derived from an increased number of PFC precursors. Repeated immunization of the spleen cell donor is required to produce significant numbers of indirect (IgG) PFC or indirect precursors; most of the PFC found after a single immunization in vivo or in vitro are direct (IgM). There is no evidence for conversion of IgM to IgG PFC in vitro. This system should provide a means for further identification of the cellular interactions involved in the immune response of the rabbit.     

Selective immunomodulation by the antineoplastic agent mitoxantrone. I. Suppression of B lymphocyte function

Novantrone mitoxantrone, an antineoplastic agent with antiproliferative properties, is under investigation as an immunomodulating agent. The impact of mitoxantrone treatment on B lymphocyte reactivity is presented here. Administered i.p. in H2O at a dose of 0.5 mg/kg, daily for 14 days, mitoxantrone abrogated both the in vivo antibody response (to ovalbumin) and the in vitro plaque-forming cell (PFC) response (to SRC). In addition to the effects on thymus-dependent reactivity, PFC responses to the thymus-independent antigens TNP-LPS and TNP-Ficoll were also inhibited when tested in vivo or in vitro. B cells were identified as a target for the suppressive activity of mitoxantrone by using T cell-replacing factor to reconstitute the in vitro anti-SRC PFC response of a T lymphocyte-depleted spleen cell preparation. LPS-induced B cell mitogenesis was largely inhibited by mitoxantrone treatment. However, depletion of Sephadex G-10-adherent cells significantly restored the proliferative response. Flow cytometric analysis revealed a dramatic decrease in splenic B lymphocyte content. Therefore, mitoxantrone exerted a potent suppressive influence on the humoral immune system through a direct reduction in B cell number augmented by macrophage-mediated inhibition of B cell proliferation.     

Antibody formation in mouse bone marrow. VIII. Dependence on potentially circulating memory cells: a study with parabiotic mice.

Mouse bone marrow barely contains antibody-producing plaque-forming cells (PFC) during the primary response to sheep red blood cells (SRBC). However, during the secondary response, the number of IgM, IgG, and IgA PFC in the bone marrow can rise to a level which surpasses the number of PFC in all the other lymphoid organs together. In the present paper we investigated whether the capacity of immune mice to react upon a booster injection of SRBC with a bone marrow PFC response can be transferred from immune to nonimmune mice. Therefore, mice primed with SRBC 6 months previously and nonprimed syngeneic mice were joined for parabiosis and were separated from each other at various intervals after joining. These separated mice were subsequently immunized with SRBC. It was found that, after 3 weeks of parabiosis, the nonprimed members reacted upon an injection of SRBC with a bone marrow IgM, IgG, and IgA PFC response as high as did the previously primed members. Furthermore it could be demonstrated by means of cell transfer experiments that, after a period of parabiosis of 3 weeks, the bone marrow and spleen of the normal mice contained about as many memory cells as the bone marrow and spleen of the immune mice. These results suggest that antibody formation in mouse bone marrow is dependent on a population of potentially circulating memory cells.     

In vivo immune response suppression by the supernatant from concanavalin A-activated spleen cells.

Supernatants from concanavalin A- (Con A) activated murine spleen cells have been shown to suppress the in vitro plaque-forming cell (PFC) response to sheep red blood cells (SRBC). The present study examined the effect of such Con A-activated spleen cell supernatants (herein termed CONS) on the in vivo immune response to SRBC in C57BL/6, BALB/c and CDF1 mice. CONS derived from BALB/c spleen cells suppressed direct PFC 4 and 8 days after immunization with 2 X 10(8) SRBC. CONS also suppressed indirect PFC 8 days after immunization, as well as serum hemagglutinins to SRBC. The PFC response of C57BL/6 (H-2b) mice was suppressed as much as that of BALB/c (H-2d) by CONS derived from BALB/c mice, indicating a lack of H-2 specificity of the CONS. In addition to suppression of the antibody response to SRBC, in vivo CONS administration resulted in reduction in spleen cell number. This reduction was not sufficient to explain the decreased PFC response. When the CONS was separated into less than 10,000 m.w. and greater than or equal to 10,000 m.w. fractions, the immunosuppressive activity was found in the less than 10,000 m.w. fraction. This observation suggests that intact interferon, SIRS, and MIF were not responsible for the results obtained.     

Evidence for histamine-induced auto-anti-idiotypic antibody immunoregulation in vivo

The in vivo effects of histamine injection in LAF₁ male mice on the immune reactivity to trinitrophenylated bovine γ-globulin was studied using plaque-forming cell (PFC) responses and their avidity distributions. Splenic anti-trinitrophenyl (anti-TNP) PFC responses of mice treated with histamine (5 × 10^?6 mol or 1 mg, intravenously) were significantly reduced in number and restricted in heterogeneity and characterized by a preferential loss of high-avidity IgG PFCs. The reduced PFC response in histamine-treated mice was dose and time dependent. No evidence of suppressor cell activity in the spleens from histamine-treated mice was demonstrable. Only histamine-treated mice produced a significantly high percentage of anti-idiotype-blocked, hapten-augmentable IgG PFCs, suggesting the presence of auto-anti-idiotypic activity. Immune sera taken from histamine-treated mice caused an inhibition of anti-TNP PFC in vitro. This PFC-inhibiting factor in immune sera of histamine-treated mice was an antibody of the IgG₁ and IgG_2a class, lacked anti-TNP antibody activity, but reacted with anti-TNP antibody of LAF₁ origin. Passive hemagglutination study of this sera showed anti-(anti-TNP F(ab′)₂-IgG) titer. Thus, the results of this study suggest that histamine in combination with antigen induces auto-anti-idiotypic antibody which, in turn, is involved in the normal regulation of the immune response to trinitrophenylated bovine γ-globulin in vivo.     

Different effects of the capsular polysaccharide of Klebsiella pneumoniae on the functions of various subpopulations of B cells in the immune response of mice to T-dependent antigen.

Using the capsular polysaccharide of Klebsiella pneumoniae (CPS-K) as a polyclonal B-cell activator (PBA) and sheep red blood cells (SRBC) as a T-dependent antigen, we studied the effects of PBA on the functions of various subpopulations of B cells in the immune response of mice to T-dependent antigen. Antibody-forming cells (AFC) of IgM and IgG types were estimated as anti-SRBC direct and indirect plaque-forming cells (PFC), and the B cells with precursor activities involving generation of AFC and supplementing new B cells as rosette-forming cells (RFC) of the B-cell type. Stimulation of normal mice by CPS-K caused a definite increase in the number of direct PFC but not in that of indirect PFC and RFC in the spleens. The responsiveness of spleen cells of CPS-K-treated mice to generate PFC and RFC responses to a subsequent injection of SRBC was lower than that of CPS-K-untreated normal mice. In this case, the responsiveness to generate RFC and indirect PFC was inhibited more strongly by CPS-K than that to generate direct PFC. When CPS-K was injected into normal mice simultaneously with SRBC, CPS-K never decreased but increased the levels of PFC and RFC responses to SRBC. In the spleens of SRBC-primed mice, the number of RFC was markedly decreased following injection of CPS-K, the number of direct PFC was increased only slightly and the number of indirect PFC was increased very slightly. The responsiveness of spleen cells of these CPS-K-treated SRBC-primed mice to generate secondary PFC and RFC responses to a subsequent injection of SRBC was much lower than that of CPS-K-untreated SRBC-primed mice. In this case, the responsiveness to generate the secondary RFC and indirect PFC responses was more strongly inhibited by CPS-K than that to generate the secondary direct PFC response. When CPS-K was injected into SRBC-primed mice simultaneously with the secondary injection of SRBC, there were marked decreases in the level of the secondary RFC response and slight decreases in that of the secondary indirect PFC response, but little change in that of the secondary direct PFC response. From these results it has been concluded that CPS-K provides the positive signal (the minor action) and the negative signal (the major action) to various subpopulations of B cells functioning at various stages of the immune response to T-dependent antigen in different ways, and acts to regulate the levels of B-cell responses to the antigen-mediated positive signal.     

Primary immune responses of selected small mammal species to heterologous erythrocytes.

1. We surveyed the primary humoral immune responsiveness of six small mammal species (Peromyscus leucopus, Microtus pinetorum, Perognathus hispidus, Neotoma floridana, Onychomys leucogaster, Mus musculus) collected from wild populations in central Oklahoma using sheep red blood cells (SRBC) as the immunogen and a splenic plaque-forming cell (PFC) assay. 2. Individuals within each wild species examined produced antibodies to a single intraperitoneal injection of SRBC, however, considerable interspecific and intraspecific variation in responsiveness was indicated. 3. Overall, primary immune responsiveness varied from 0 to 5013 PFC/10(6) cells. Spleen weights, total splenic nucleated cell yields, PFC/spleen, PFC/mg spleen, and PFC/10(6) cells were significantly different among species. 4. Mean cell yield in M. pinetorum was greater than in P. leucopus and CD-1 laboratory mice (included as positive controls). Number of PFC/10(6) cells was greater in CD-1 laboratory mice than P. hispidus and P. leucopus. The coefficient of variation for PFC/10(6) cells in CD-1 laboratory mice was 38% compared to 109, 129, and 56% for M. pinetorum, P. hispidus, and P. leucopus, respectively. 5. Interspecific and intraspecific differences among wild species may be a reflection of disparate life histories and other environmental selection pressures.     

Oscillations of IgM antibody affinity at the level of single immunocytes

IgM antibody affinity was measured by hemolytic plaque inhibition assays on spleen cells from mice immunized with a single injection of DNP-dextran. Maturation of affinity was found to occur with time after 1 to 1000 microgram of immunogen and to be characterized by rapid oscillations independent from changes inFC number/spleen and in antibody secretion rate. Analysis of affinity heterogeneity showed that such oscillations occur in higher affinity PFC subpopulations. The origin of affinity oscillations was discussed in terms of interactions among antigen and the elements of the immune network.     

Immune response in malnutrition. Differential effect of dietary protein restriction on the IgM and IgG response to alloantigens

The capacity for humoral immune response was evaluated in C57BL/6 mice fed diets with low (8%) or normal (27%) protein content upon primary and secondary stimulation with allogeneic cells from the DBA/2 strain. Primary antibody response was assessed by titration of serum hemagglutinins and by quantitation of direct plaque forming cells (PFC) in immune spleen suspensions, with lymphoma cells L5178Y of the DBA/2 strain as target. Secondary antibody response was assessed by titration of serum hemagglutinins. The following results were obtained: 1) Significant decrease in the total number of spleen cells was observed in protein deficient animals while the numbers of IgM PFC/spleen did show small reduction. 2) The number of direct alloantibody PFC/10⁷ spleen cells was increased in the protein deficient animals in comparison to the normally fed controls. 3) The above effect was observed even after short periods (1 week) of protein depletion. 4) Titers of serum hemagglutinins in protein deficient mice were similar or higher than in normal mice during the primary response but markedly depressed during the secondary response. 5) The synthesis of IgG hemagglutinins was depressed in protein deficient mice during both the primary and secondary responses. The results indicated that cells producing IgM alloantibodies are not affected by protein deficiency starting during the fourth week of age, while one or more of the cell populations interacting in the IgG response to alloantigens is markedly depressed by similar protein restriction. It was suggested also that protein deficient animals present a failure in the regulatory mechanism(s) of the IgM response to alloantigens.     

Regulation of immune response in allogeneic mixed spleen cell cultures. I. Influence of I-region on the generation of suppressor cells

The immune responses of allogeneic mixed spleen cell cultures (MLC) to the T-dependent antigen, SRBC, and to the T-independent antigen, DNP-PAA, were investigated. The immune response to DNP-PAA in MLC with certain strain combinations was always suppressed as compared with the expected PFC response calculated from the PFC responses of the individual strains. This suppression was eliminated by treating the spleen cells with RAMB antiserum plus complement before the incubation of the MLC with DNP-PAA. It can be concluded that the suppression in the PFC response to the T-independent antigen DNP-PAA in MLC is due to the generation of suppressor T-cells. The PFC response to the T-dependent antigen, SRBC, in MLC showed either suppression, no change, or rarely augmenation, suggesting that the allogeneic mixed spleen cell cultures can generate both suppressor and helper T cells and that the balance between helper and suppressor activity regulates the PFC response to a T-dependent antigen. Suppressor activity was also generated in a one-way MLC, but the degree of suppression depended upon which of the two strains was responding. Similar amounts of thymidine were incorporated in the one-way MLR irrespective of which strains was responding. Thus, the extent of proliferation in one-way MLR is not related to the degree of suppressor activity generated. The results further indicate that a difference between two strains in the I-C, S, and G regions of the major histocompatibility complex is required to generate suppressor activitiy that can depress the response to a T-independent antigen, MLC between strains differing in K, I-A, I-B, I-J, I-E, and D regions generate little or no suppressor activity in this system.     

Regulation of the immune system by synthetic polynucleotides. VII. Suppression induced by pretreatment with poly A:U.

Pretreatment of mouse spleen cells with polyadenylic-polyuridylic acid complexes (poly A:U) either in vivo or in vitro 24 hr prior to addition of antigen, resulted in a substantial time dependent decrease in anti-SRBC PFC. Enhancement was observed 6 hr after poly A:U, while inhibition did not become evident until 24 hr after pretreatment. Inhibition of the PFC response appeared to result from poly A:U activation of a nylon wool adherent, T suppressor cell, capable of diminishing the response of normal spleen cells exposed to antigen on co-culture.     

Cross-reactive cellular and humoral immunity to carcinogen-induced chicken fibrosarcomas. I. Protective cross-immunity between transplantable tumor lines

Dimethylbenz[a]anthracene (DMBA)-induced transplantable fibrosarcomas in B2 homozygous chickens (SC line) grow progressively in normal chickens, but are rejected by chickens immunized previously with irradiated tumor cells and Corynebacterium parvum. Tumor-immune chickens resist challenge by the immunizing tumor lines as well as by some, but not all, fibrosarcoma lines. The pattern of cross-reactivity between four DMBA-induced transplantable tumor lines was examined in detail. Ability to reject a tumor challenge correlated very well (p less than 0.001) with the presence of delayed-type hypersensitivity (DTH) to that tumor. Immunization with one of two of the DMBA-induced lines tested also caused rejection of transplantable tumors developed from methylcholanthrene-induced and benzo(a)pyrene-induced primary fibrosarcomas. Although immunization with tumor caused DTH to chicken embryo fibroblasts (CEF), immunization with CEF failed to cause protective immunity or DTH to tumors. Presence of protective immunity, where tested, also correlated with the ability of spleen cells from immune donors to inhibit tumor growth in Winn tests. Humoral immunity exhibited even greater cross-reactivity than did cellular immunity. Distinct patterns of cross-reactivity were nevertheless observed with respect to the serum antibodies as detected in ELISA. Two of these patterns were also observed in several sera from primary tumor-bearing chickens, both including reactivity with CEF. Such reactivity was absent from normal chicken sera.