Antigen-specific T cell-mediated suppression. II. In vitro induction by I-J-coded L-glutamic acid50-L-tyrosine50 (GT)-specific T cell suppressor factor (GT-T8F) of suppressor T cells (T82) bearing distinct I-J determinants.

The induction of new suppressor T cells (Ts2) by suppressive extracts (TsF) from L-glutamic acid50L-tyrosine50 (GT) nonresponder mice was examined. Incubation of normal spleen cells with allogeneic GT-TsF for 2 days in vitro led to the generation of Ts2 cells able to suppress subsequent responses to the immunogen GT-methylated bovine serum albumin (GT-MBSA) in vivo. This induction occurred efficiently when TsF donor and target cells differed at all of H-2, including the I-J subregion. B10.BR (H-2k) GT-TsF, adsorbed on, then acid eluted from GT-Sepharose and anti-I-Jk [B10.A (3R) anti-B10.A (5R)]-Sepharose in a sequential fashion could induce BALB/c (H-2d) spleen cells to become Ts2 only if nanogram quantities of GT were added to the purified GT-TsF. This indicates a requirement for a molecule or molecular complex possessing both I-J determinants and antigen (GT)-binding specificity, together with GT itself, for Ts2 induction. The induced Ts2 are I-J+, since their function can be eliminated by treatment with anti-I-Jk plus C. These I-J determinants are coded for by the precursor of the Ts2 and do not represent passively adsorbed, I-J coded TsF, since anti-Ijk antiserum [(3R X DBA/2)F1 anti-5R] which cannot recognize the BALB/c (I-Jd) TsF used for induction still eliminates the activity of induced A/J (I-Jk) Ts2. These data provide further evidence for and information about the minimum of two T cells involved in antigen-specific suppressor T cell systems.     

Antigen-specific suppressor T cell interactions. I. Induction of an MHC-restricted suppressor factor specific for L-glutamic acid50-L-tyrosine50

The synthetic polymers L-glutamic acid60-L-alanine30-L-tyrosine10 (GAT) and L-glutamic acid50-L-tyrosine50 (GT) stimulate specific suppressor T cells in certain strains of mice. Extracts from these T cells contain factors (TsF) that inhibit GAT- or GT-specific antibody responses by normal spleen cells or proliferative responses by primed T cells. We constructed T cell hybridomas that constitutively produce GAT-TsF or GT-TsF, which functionally and serologically are identical to factors extracted from suppressor T cells. In this report we demonstrate that monoclonal GT-TsF can induce specific unresponsiveness in vivo or in vitro and that this unresponsiveness is due to development of second-order antigen-specific suppressor T cells. T cell hybridomas were constructed by fusion of BW5147 with GT-TsF1 induced second-order suppressor T cells and clones that produced suppressor factor (GT-TsF2) were isolated and characterized. GT-TsF2 differs from the GT-TsF1 used to induce it in that GT-TsF1 acts across allogeneic barriers whereas GT-TsF2 does not. This restriction is controlled by genes in the H-2 gene complex and maps to the I-J subregion. GT-TsF2 is antigen-specific in suppressive activity and also in its antigen-binding site(s). Thus, GT-TsF2 closely resembles the carrier-specific, I-J+, genetically restricted factor described by Tada and his colleagues. Because GT-TsF2 was induced by GT-TsF1, we suggest cells producing GT-TsF1 are an early cell in the pathway of suppression, and that this cell is required for the activation of antigen-specific, MHC-restricted TsF.     

Genetic analysis of immune suppression

We have analyzed the genetic control of susceptibility to suppression by 1-J⁺, suppressor-T-cell derived factors (TsF) specific for the synthetic polymer L-glutamic acid⁵⁰-L-tyrosine⁵⁰ (GT). GT-TsF activity was measured as specific inhibition of proliferative responses to GT developed in cultures of lymph-node T cells from mice primed with GT complexed to methylated bovine serum albumin (GT-MBSA). These experiments demonstrated that there is no MHC-encoded genetic restriction between donors and recipients of GT-TsF in suppression of proliferative responses. We have also confirmed the observations that mice of the H-2 ^b, H-2 ^d, and H-2 ^khaplotypes can produce GT-TsF, whereas H-2 ^amice do not, and that H-2 ^b, H-2 ^d, and H-2 ^kmice are sensitive to GT-TsF from all producer strains, whereas H-2 ^bmice are not sensitive to GT-TsF from any strain. Analysis of the effect of GT-TsF on responses by mice bearing recombinant haplotypes suggests that at least two genes are required for susceptibility to GT-TsF and that these genes show coupled complementation.Abbreviations used in this paper GAT random linear terpolymer of L-glutamic acid⁶⁰-L-alanine³⁰-L-tyrosine¹⁰ - GAT-MBSA GAT complexed to methylated bovine serum albumin - GATTsF GAT-specific-T-cell derived suppressor factor - GT random linear copolymer of L-glutamic acid⁵⁰-L-tyrosine⁵⁰ - GT-MBSA GT complexed methylated bovine serum albumin - GT-TsF GT, specific, T-cell derived suppressor factor - ³H-TdR tritiated thymidine - Ir gene immune response gene - MBSA methylated bovine serum albumin - MEM minimal essential media - MHC major histocompatibility complex - PFC plaque-forming cell(s) - PPD purified protein derivative of M. tuberculosis H37Ra     

Monoclonal anti-idiotypic antibodies to an I-J interacting molecule inhibit suppression in an H-2 restricted way

We have obtained 10 mAb from two independent fusions that are anti-idiotypic to the combining site of an anti-I-Jk antibody. These mAb block Ts cell function isn a genetically restricted manner in vitro and in vivo and recognize a determinant on macrophage membranes. In addition, they do not affect the I-Ek-restricted activation of a Th cell line specific for pigeon heart cytochrome c. We conclude that these mAb may recognize a molecule other than conventional I-Ek on cells interacting with Ts cells that is involved in mediating Ts activity. The molecule recognized may be a modified I-Ek molecule or a molecule not encoded by the genes encoding I-Ek.     

Hapten-specific responses to the phenyltrimethylamino hapten. V. A single chain antigen-binding I-J+ first-order T suppressor factor requires antigen to induce anti-idiotypic second-order suppressor T cells

We have previously shown that a single i.p. injection of the monovalent antigen, L-tyrosine-p-azophenyltrimethylammonium in complete Freund's adjuvant induces a Ly-1+2-, idiotype-bearing, and antigen-binding first-order T suppressor (Ts1) population. We showed that soluble factors extracted from these cells could suppress delayed-type hypersensitivity responses if administered at the induction phase of the response. In this paper we additionally characterize the suppressor factor, TsF1, with respect to its biologic, serologic, and chemical properties. The studies show that the TsF1 is neither allotype nor H-2 restricted and can induce anti-idiotypic T suppressor cells (Ts2), but it requires the presence of antigen to do so. The factor binds antigen, bears I-J encoded determinants, is resistant to reduction and alkylation, and elutes as a single chain factor after adsorption onto monoclonal anti-I-J antibody-coupled Sepharose beads in the presence of dithiothreitol (DTT). This is in marked contrast to TsF2 (derived from Id-specific Ts2-containing spleen cells), which lost its suppressive activity after reduction and alkylation, and behaves as a two chain factor after adsorption and elution from anti-I-J-coupled beads in the presence of DTT. The TsF1 is discussed with respect to the properties of it and those of TsF1 from other similar idiotype-dominated antigen systems.     

T cell recognition of Mlsc. I. Influence of MHC gene products in Mlsc-specific T cell recognition

Monospecific T cell clones have been proven to be powerful tools for the characterization of T cell recognition in many Ag-specific as well as allo-specific T cell responses. In this report, in order to elucidate the mechanism of T cell recognition of minor stimulating locus Ag (Mlsc) determinants, Mlsc-specific cloned T cells were employed together with primary T cell responses to clarify the role of MHC-gene products in Mlsc-specific T cell recognition. The results indicated that T cells recognize Mlsc determinants in conjunction with I-region MHC gene products. Moreover, certain MHC haplotypes (e.g., H-2a and H-2k) appear to function efficiently in the "presentation" of Mlsc, whereas other haplotypes (e.g., H-2b and H-2q) function poorly if at all in presenting Mlsc. Experiments with the use of stimulators derived from F1 hybrids between the low stimulatory H-2b, Mlsc strain, C3H.SW, and a panel of Mlsb, H-2-different or intra-H-2 recombinant strains strongly suggested that expression of E alpha E beta molecules on stimulators plays a critical role for Mlsc stimulation. The functional importance of the E alpha E beta product in Mlsc recognition was further demonstrated by the ability of anti-E alpha monoclonal antibody to inhibit the response of cloned Mlsc-specific T cells. Inhibition of the same Mlsc-specific response by anti-A beta k antibody suggests that the A beta product may also play a role in T cell responses to Mlsc.     

The diversity of T cell receptors specific for self MHC gene products

Cytolytic and helper T cells exhibit, in addition to their specificity for foreign antigen, a restriction specificity for self MHC gene products. The present study was designed to assess the degree of diversity within the repertoire of receptors that are involved in T cell recognition of self MHC gene products. For this purpose, we generated a series of murine cytolytic T lymphocyte (CTL) clones specific for a hapten antigen and restricted to the self MHC gene product H-2Kb. An analysis of the hapten fine specificity of these clones by using hapten analogues revealed the presence of substantial diversity within the repertoire of CTL receptors specific for the hapten. The degree of diversity within the repertoire of self H-2 recognition structures on these clones was assessed by testing clones on panels of syngeneic, congenic H-2K disparate, and H-2Kb mutant target cells bearing varying amounts of antigen. A striking degree of heterogeneity in H-2K recognition was found among these H-2Kb restricted CTL. We estimate that there are probably a minimum of 65 different patterns of H-2K recognition among these clones. Our results suggest a high degree of diversity exists within the repertoire of self MHC recognition structures on antigen-specific T cells restricted to a single self MHC gene product.     

Antibody inhibition of suppressor cell induction

The IJ genetic restrictions of suppressor T (Ts) cells are controlled by H-2-related determinants that are expressed on antigen-presenting cells. This has led to the hypothesis that Ts cells carry receptors for a self H-2-related ligand that is expressed on specialized antigen-presenting cells. We refer to this H-2-related ligand as the IJ interacting molecule. This report evaluates the ability of rabbit antibodies directed against idiotypes on monoclonal anti-IJ antibodies (the latter are presumably reactive with the Ts cell receptor) to bind IJ interacting molecule and to inhibit antigen presentation to Ts cells. Such anti-idiotypic reagents were prepared against T cell-reactive monoclonal anti-IJk and anti-IJd antibodies. The F(ab')2 fragments of these anti-idiotypic reagents blocked Ts cell induction. The inhibition was haplotype specific and mapped to the IJ region. The anti-idiotypic antibodies blocked the generation of Ts1, Ts2, and Ts3 cells. The cellular target of the blocking activity mediated by these anti-idiotypic antibodies is a macrophage. This was shown by using a cloned macrophage hybridoma line for both Ts induction and absorption of antibody activity. The combined data support the concept that macrophages express IJ interacting determinants that are responsible for Ts cell induction.     

Functional analysis of cloned macrophage hybridomas. V. Induction of suppressor T cell responses

It has been suggested that macrophage-like accessory cells are involved in suppressor T cell (Ts) induction. To further analyze this issue, we obtained several cloned macrophage hybridoma cell lines by somatic cell fusion of the macrophage tumor P388D1 of DBA/2 (H-2d) origin with splenic adherent cells of CKB mice (H-2k). Several cloned lines displayed the serological and functional characteristics of macrophages. We evaluated the ability of these hybridomas to induce third order or effector Ts (Ts3) to suppress the contact sensitivity response against the hapten 4-hydroxy-3-nitrophenyl acetyl (NP). In contrast to the parental P388D1 and two other macrophage hybridomas, one macrophage hybridoma clone, termed 63, when conjugated with NP, induced Ts3, which suppressed contact sensitivity responses against NP but not DNFB, showing that the Ts3 were antigen specific. Macrophage hybridoma 63 could specifically induce Ts3 activity in either H-2k, H-2d, or H-2k/H-2d heterozygous hosts. Thus, macrophage hybridoma 63 functionally expressed major histocompatibility complex-related restricting determinants, and the fusion with cells from a H-2k macrophage donor caused a functional complementation of H-2d-related, Ts-inducing elements. The genetic restriction governing induction of Ts3 was controlled by genes that mapped to I-J region. Furthermore, NP-conjugated macrophage hybridoma 63 could serve as a target for elicitation of suppressor responses after administration of I-Jk, but not I-Jb, restricted suppressor factor. The data suggest that macrophage hybridomas represent a means to dissect heterogeneity within the macrophage population. The data also imply that the I-J determinants expressed on macrophages represent a ligand for the antigen receptor of Ts.     

The products of transferred H-2 genes express determinants that restrict hapten-specific cytotoxic T cells

Cell lines into which cloned H-2 genes had been introduced (i.e., transformants) were used to correlate the genes and their products that are capable of functioning as H-2 restriction elements for hapten-self-(AED and TNP) specific cytotoxic T cells (CTL). These transformants provided a unique system in which major histocompatibility restricted (MHC) T cell recognition could be examined by using cells that express only H-2Ld or only H-2Dd gene products. BALB/c (H-2d) anti AED-self CTL lysed both the H-2Ld and Dd transformants, but not parental, i.e., untransformed, cells. The AED-self lysis of the Ld and Dd transformants was shown to be specifically inhibited by anti-H-2Ld and anti H-2Dd monoclonal antibody, respectively. In contrast to these results, BALB/c anti TNP-self CTL were found to lyse readily the Dd but not Ld transformed lines, supporting reports indicating that H-2Ld-restricted TNP-self CTL could not be detected. The results of this study thus demonstrate that the cell surface products encoded by these transferred MHC class I genes contain self determinants recognized by CTL.     

T cell allotypic determinants encoded by genes linked to the immunoglobulin heavy chain locus. I. Establishment of monoclonal antibodies against allotypic determinants

Monoclonal alloantibodies for T cell allotypic determinants were obtained by hybridizing SP-2 tumor cells with BALB/c (H-2d, Igh-1a) spleen cells, which had been repeatedly immunized with Con A-stimulated CB-20 (H-2d, Igh-1b) spleen cells. It was found that these monoclonal anti-CB-20 antibodies detect the new allotypic determinants (distinct from the B cell Igh-C region determinant) expressed only on the augmenting or suppressor T cells. Genetic analysis of these antigenic determinants revealed these antibodies react with the gene products located on the telomeric side chromosome of the Igh variable region gene (Igh-V) cluster. These antibodies when given in vivo caused a modification of antibody production. The antibody activity was absorbed by Con A-stimulated B10.BR (H-2b, Igh-1b), C57BL/6 (H-2b, Igh-1b), CWB (H-2b, Igh-1b), CB-20 (H-2d, Igh-1b), and BAB-14 (H-2d, Igh-1b) spleen cells, but not by Con A-stimulated C3H.SW (H-2b, Igh-1j), BALB/c (H-2d, Igh-1a), A/Sn (H-2a, Igh-1e), and C.AL-20 (H-2d, Igh-1d) spleen cells. In addition, in vivo these monoclonal antibodies modified anti-SRBC antibody production only in Igh-1b allotype-bearing mice. One monoclonal antibody reacted with 4-hydroxy-3-nitrophenyl acetyl- (NP) hapten-specific augmenting T cells, and the other two batches of monoclonal antibodies reacted with NP-specific suppressor T cells of NP-mediated cutaneous responses. A mapping study with these recombinants limits the gene coding for the T cell-specific determinants to a gene within the variable region to the telomeric side of NP-VH and to the centromeric side of prealbumin. This segment is inclusive of all immunoglobulin genes, the region Owen named IgT-C, and a histocompatibility gene (H-Ig).     

Immunoregulatory pathways in adult responder mice. II. Regulation of delayed-type hypersensitivity responses by GAT-specific suppressor factors present in GAT-tolerant adult responder mice

We studied the effects of T cell extracts from adult responder BALB/c mice tolerized with poly(Glu60Ala30Tyr10) (GAT)-coupled syngeneic spleen cells (GAT-SP) on delayed-type hypersensitivity (DTH), T cell-proliferative (Tprlf), and plaque-forming cell (PFC) responses. Adult responder mice injected i.v. with GAT-SP develop Lyt-1-2+ suppressor T cells (Ts), which suppress the induction of GAT-specific DTH and PFC, but not Tprlf responses. Sonicates from these Ts contain an afferent-acting, soluble factor(s) (GAT-TsFdh) that specifically suppresses the same responses as the intact Ts (i.e., DTH and PFC, but not Tprlf). Immunosorbent chromatography studies were employed to determine the molecular nature of the suppressive material active on both cellular and humoral responses. In both assay systems, GAT-TsFdh was found to bear determinants encoded by the I subregion of the H-2 complex and a receptor(s) for GAT. BALB/c-derived GAT-TsFdh suppressed the induction of GAT DTH in syngeneic BALB/c and H-2-compatible B10.D2, but not in allogeneic C57BL/6 or CBA/Cum, suggesting a possible H-2 restriction in the suppression. It was also shown that one target of functional regulation by GAT-TsFdh is the T helper cell for DTH responses (DTH-Th). The results suggest that similar Ts and TsF regulate humoral and cell-mediated responses, perhaps by affecting a target common to both pathways (e.g., the T helper cell). The resistance of Tprlf responses to suppression by GAT-TsFdh indicates that the effector DTH-Th target is not a major component of the proliferative response. These data are discussed with respect to GAT-specific TsF-regulating PFC responses, which have been identified in nonresponders and in responders tolerized as neonates with GAT.     

Modulation of Schistosoma mansoni egg-induced granuloma formation. III. Evidence for an anti-idiotypic, I-J-positive, I-J-restricted, soluble T suppressor factor

Modulation of pathogenic egg-induced hepatic granuloma formation in chronically Schistosoma mansoni-infected mice is an immunoregulatory process. Adoptive transfer and in vitro studies have demonstrated that this suppression involves various T lymphocyte circuitries, and the participation of soluble suppressor factors has recently been noted in these systems. The present study has partially characterized a soluble suppressive activity extracted from the thymus glands of chronically infected mice (SmTsF) that modulates granuloma formation in acutely infected mice. The suppressive effect of SmTsF could be administered by multiple i.v. injections or by slow release from osmotic minipumps implanted i.p. Homologous and reciprocal transfers of SmTsF prepared from B10.A(3R) and B10.A(5R) donors indicated that SmTsF-induced suppression required homology between the donor and recipient at the I-J subregion of the major histocompatibility complex. Furthermore, the use of immunoabsorbents prepared with anti-I-Jk and anti-I-Jb sera demonstrated that CBA/J (H-2k) SmTsF was retained by, and could be recovered from, anti-I-Jk insoluble columns, but was unaffected by parallel treatment with anti-I-Jb sera. Subsequent immunoabsorbent studies showed that SmTsF did not bind to soluble egg antigenic (SEA) columns, and thus demonstrated a lack of idiotype, anti-antigen activity. However, columns prepared by using anti-SEA IgG from chronically infected syngeneic mice retained SmTsF suppressive activity, and it could be recovered by alkaline elution. These data are compatible with an interpretation that the suppressive activity expressed anti-idiotypic reactivity. Thus a thymus extract obtained from chronic, modulated, S. mansoni-infected mice can induce granuloma suppression in acutely infected mice. This activity is associated with an I-J determinant-bearing, possibly anti-idiotypic moiety or moieties. These observations further implicate some of the Ts cascades reported in other systems in the regulation of cell-mediated pathogenesis in chronic experimental schistosomiasis.     

Regulation of granulomatous inflammation in murine schistosomiasis. III. Recruitment of antigen-specific I-J+ T suppressor cells of the granulomatous response by I-J+ soluble suppressor factor

Down-modulation of the schistosome egg-induced granulomatous response involves various interacting subsets of T suppressor (TS) lymphocytes. In the present study the inductive phase of the process of modulation was analyzed. A soluble, I-J+ granuloma TS cell recruiting factor (Gr-TSRF) derived from spleen cells of chronically infected mice is described. This factor eluted from immunoabsorbent columns coupled with anti-I-Jk alloantisera induced the recruitment and expansion of antigen-specific I-J+ TS cells from a TS precursor cell population in the spleens of acutely infected mice. The recruited TS cells suppressed the granulomatous response of normal recipients in a 2-day adoptive transfer model. The antigenic specificity of the recruited TS cells was demonstrated by their inability to suppress KLH-induced artificial granulomatous response. This mechanism of recruitment described in the current study and illustrated by adoptive transfer experiments is likely to be active in vivo in initiating the process of spontaneous modulation. The I-J+ Gr-TSRF and the I-J+ TS cell described in this paper, together with the previously described H-2 restricted I-C+ factor and the subsets of TS cells (THs, TSe, TSpr), indicate the existence of an intricate, regulatory pathway(s) that operates during the modulation of the granulomatous response.     

Evolution and expression of the transplantation antigen gene family

We have cloned 26 different class I genes that are located in the major histocompatibility complex of the C57BL/10 mouse. Two of the three class I genes found in the H-2 complex encode the H-2Kb and H-2Db antigens; the other 23 class I genes map to the adjacent Tla complex. We have grouped the cosmids containing these genes into three clusters: one cluster links the H-2K and I-A regions, one cluster links the H-2D and Qa-2 regions, and the final cluster maps to the TL region. The class I gene organizations in the Qa-2 and TL regions of the C57BL/10 and BALB/c mice are generally similar, but there are several polymorphic segments. The Qa-2 region of both mice seems to have evolved by the duplication of gene pairs; furthermore, the H-2K region may have been generated by the translocation of a gene pair from the Qa-2 region. We have evidence that several of the genes in the Qa-2 region are expressed.     

Expression of cell surface antigens by suppressor T cell hybridomas. I. Comparison of phenotype and function

The phenotypic expression of cell surface markers by T cell hybridomas that elaborate suppressor factors specific for the polymers L-glutamic acid60-L-alanine30-L-tyrosine10 (GAT) or L-glutamic acid50-L-tyrosine50 (GT) has been analyzed. We found that determinants encoded by the I-J subregion of the H-2 complex were borne on the surface of these hybrid cells and on the factors they secrete, whereas I-J determinants were not expressed by the AKR thymoma fusion parent, BW5147. The level of expression of I-J determinants fluctuated widely depending upon culture conditions, but I-J products and other cell surface markers of normal T cells could be quantitatively increased, or induced to appear, by treatment of the hybridomas with chemical agents, such as dimethyl sulfoxide (DMSO) or phorbol myristate acetate (PMA). In contrast, the surface expression of the viral product gp70 was decreased by the same treatment. Using chemical induction, we typed BW5147, a group of antigen-specific suppressor T cell hybridomas, and two control hybridomas for expression of I-J, Thy-1, Lyt, and H-2K alloantigens. Also, a haplotype-specific hybridoma that produces an antigen-nonspecific factor was analyzed. The results demonstrated that BW5147 failed to express I-J or Lyt alloantigens but expressed Thy-1.1 and H-2Kk gene products. The pattern of expression of these antigens by T cell hybridomas was very complex, but three conclusions could be drawn: 1) Good correlation exists between the expression of certain I-J determinants and the ability of T cell hybridomas to produce suppressor factor. 2) The expression of Thy-1, Lyt, or H-2Kk determinants is variable, and no correlation was found between expression of these antigens and the ability to produce active suppressor factors. 3) I-Jk products contributed by the AKR thymoma fusion partner are expressed by T cell hybridomas.     

Monoclonal antibodies to the p21 products of the transforming gene of Harvey murine sarcoma virus and of the cellular ras gene family.

We have isolated eight rat lymphocyte-myeloma hybrid cell lines producing monoclonal antibodies that react with the 21,000-dalton transforming protein (p21) encoded by the v-ras gene of Harvey murine sarcoma virus (Ha-MuSV). These antibodies specifically immunoprecipitate both phosphorylated and non-phosphorylated forms of p21 from lysates of cells transformed by Ha-MuSV. All eight react with the products of closely related ras genes expressed in cells transformed by two additional sarcoma viruses (rat sarcoma virus and BALB sarcoma virus) or by a cellular Harvey-ras gene placed under the control of a viral promoter. Three of the antibodies also react strongly with the p21 encoded by the v-ras gene of Kirsten MuSV. These same three antibodies immunoprecipitate the predominant p21 species synthesized normally in a variety of rodent cell lines, including the p21 produced at high levels in 416B murine hemopoietic cells. This suggests that an endogenous gene closely related to Kirsten-ras is expressed in these cells. The monoclonal antibodies have been used to confirm two properties associated with p21; localization at the inner surface of the membrane of Ha-MuSV-transformed cells, assayed by immunofluorescence microscopy, and binding of guanine nucleotides.     

Inhibition of the induction of cytolytic T lymphocytes with alloantisera directed against H-2K and H-2D gene products.

Alloantisera directed at gene products of the H-2Kd or H-2Dd loci on the stimulator cell were shown to inhibit specifically the generation of cytolytic T lymphocytes to those antigens. Thus, masking the antigens of one H-2 locus on the stimulator cell inhibits the induction of CTL to products of that locus but does not inhibit the induction of CTL to antigens of another H-2 locus. Alloantisera inhibition of the induction of cytolytic T lymphocytes occurred with both normal and primed responder cells and also occurred when the stimulating antigens were on whole cells or purified plasma membrane. Absorption on the appropriate spleen cells removed the inhibitory capacity of these alloantisera.     

The interaction of monoclonal antibodies with MHC class I antigens on mouse spleen cells. I. Analysis of the mechanism of binding

We studied the mechanism of binding of radiolabeled, monoclonal anti-H-2 antibodies to mouse spleen cells to determine the number of H-2 antigen molecules per cell. Equilibrium and kinetic data were analyzed in detail according to theoretical models developed for different modes of antibody binding. The results of binding experiments from three monoclonal IgG antibodies (36-7-5, anti-Kk; 27-11-13, anti-DbDd; and 11-4-1, anti-Kk) and their F(ab')2 and F(ab') fragments show that for the IgG and F(ab')2 from all three antibodies, the monovalently and bivalently bound states of the antibody co-exist in rapid equilibrium with one another on the cell surface, with the bivalent state predominating. We show that the relative proportions of the monovalently and bivalently bound species can be estimated from dissociation kinetics experiments, and that once the mode of antibody binding has been established, the density of H-2 determinants on the cell surface can be estimated from equilibrium-binding data. We conclude that the average numbers of H-2K and H-2D molecules on B10.A spleen cells are 5 X 10(4) and 1.1 X 10(5) molecules/cell, respectively.