Hapten-Specific T Cell Response to Azobenzenearsonate-N-Acetyl-L-Tyrosine (ABA-tyr) in Lewis Rats: II. Induction and Suppression of ABA-Specific Helper Cell Activity for Antibody Production

Immunization of Lewis rats with azobenzenearsonate-N-acetyl-l-tyrosine (ABA-tyr) in complete Freund's adjuvant (CFA), produces a hapten-specific helper T cell response measured by an increase in plaque forming cells (PFC) against a different hapten. The response seen is primarily direct (IgM) PFC unless B cells are primed by injection of trinitrophenylated keyhole limpet hemocyanin (TNP-KLH) prior to immunization with ABA-tyr. The response requires both ABA and TNP to be on the same carrier molecule which can be as diverse as bovine serum albumin (BSA), poly l-glutamine-lysine-tyrosine (l-GLT); however, a d-amino acid polypeptide does not work. The in vitro demonstration of such help was successful only with peritoneal exudate lymphocytes, not spleen or lymph node cells. Repeated pretreatment of rats by intraperitoneal injection of ABA-tyr in incomplete Freund's adjuvant (IFA) induced an unresponsiveness for helper activity to subsequent immunization with the same antigen in CFA. Passive transfer of lymphoid cells from spleens and lymph nodes from rats pretreated with ABA-tyr in IFA followed by boosting with ABA-tyr in CFA induced unresponsiveness to subsequent induction of hapten-specific help.     

Hapten-specific T cell response to azobenzenearsonate-N-acetyl-L-tyrosine in the Lewis rat. III. Effects of peptide-spacer structure on eliciting ABA-specific helper activity with TNP-haptened ABA-peptide-Ficoll

A series of antigens was synthesized in which peptide spacers were inserted between the ABA group and TNP-Ficoll. When these antigens were used to assess helper activity in Lewis rats immunized with ABA-tyr, it was found that an increase in the ABA-epitope density and an increase in the peptide spacer size both increased the efficacy of the antigen in eliciting ABA-specific help, manifest by an enhancement of anti-TNP PFC. Substitution of D- for L-amino acids progressively decreased the ability of these conjugates to elicit help until D-tyr-D-ala-D-ala, which when used for coupling ABA to the TNP-Ficoll resulted in a nonimmunogenic molecule. When these same Ficoll conjugates were used to study ABA-specific in vitro proliferative responses, it was found that introduction of even a single D-amino acid into the spacer greatly reduced reactivity. By contrast the ABA-peptides, free of the Ficoll backbone, were all equivalent on a molar basis in their ability to elicit ABA-specific in vitro proliferation, regardless of their content of D-amino acids. These results suggest some form of digestion is required in the processing of these antigens before they can elicit helper activity. This processing can occur only if one or more L-amino acid residues are present. If the ABA-peptides are free of the Ficoll backbone, they are all capable of stimulating T cell proliferation without apparent further processing.     

Hapten-specific T cell response to azobenzenearsonate-N-acetyl-L-tyrosine in the Lewis rat. I. Induction and suppression of delayed-type hypersensitivity and in vitro proliferative responses

Pretreatment of Lewis rats with a single i.p. injection of ABA-N-acetyl-tyrosine in incomplete Freund's adjuvant induced an unresponsiveness for delayed-type hypersensitivity to subsequent immunization with the same antigen in complete Freund's adjuvant. Complete suppression of in vitro antigen-induced proliferative responses required repeated pretreatment. Passive transfer of lymphoid cells from spleen and lymph nodes but not sera from suppressed rats induced unresponsiveness of hapten-specific T cell functions. Nylon wool-nonadherent cells and cells panned on F(ab')2 of rabbit anti-Lewis rat Ig plates suppressed the induction of DTH and in vitro antigen-stimulated proliferation. Adult thymectomy increased DTH and failed to abolish the induction of suppression.     

Two types of murine helper T cell clone. II. Delayed-type hypersensitivity is mediated by TH1 clones

We have previously shown that at least two types of Lyt-1+, Lyt-2-, L3T4+ helper T cell clones can be distinguished in vitro by different patterns of lymphokine secretion and by different forms of B cell help. Evidence is presented here to show that one type of helper T cell clone (TH1) causes delayed-type hypersensitivity (DTH) when injected with the appropriate antigen into the footpads of naive mice. The antigen-specific, major histocompatability complex (MHC)-restricted footpad swelling reaction peaked at approximately 24 hr. Footpad swelling was induced by all TH1 clones tested so far, including clones specific for soluble, particulate, or allogeneic antigens. In contrast, local transfer of TH2 cells and antigen did not produce a DTH reaction, even when supplemented with syngeneic spleen accessory cells. Similarly, local transfer of an alloreactive cytotoxic T lymphocyte clone into appropriate recipients did not produce DTH. The requirements for the DTH reaction induced by TH1 cells were investigated further by using TH1 clones with dual specificity for both foreign antigens and M1s antigens. Although these clones responded in vitro to either antigen + syngeneic presenting cells, or M1s disparate spleen cells, they responded in vivo only to antigen + MHC and did not cause footpad swelling in an M1s-disparate mouse in the absence of antigen. Moreover, in vitro preactivation of TH1 or TH2 cells with the lectin concanavalin A was insufficient to induce DTH reactions upon subsequent injection into footpads. From these results, we conclude that the lack of DTH given by TH2 clones in vivo could be due to the inability of the TH2 cells to produce the correct mediators of DTH, or to a lack of stimulation of TH2 clones in the footpad environment.     

ABA-specific responses are I region restricted by the carriers used for immunization

Immunization of mice with ABA coupled to carriers to which they are nonresponders gives rise to ABA-specific proliferative responses in lymph node cells. When C3H/HeN and CBA/J nonresponder mice are immunized with ABA on (T,G)-A-L (an I-A-restricted carrier in responder mice), the responses to ABA-tyr and ABA coupled to a variety of unrelated carriers are solely I-A restricted as determined by inhibition with anti-IA and anti-I-E sera. When ABA on GLT (an I-E-restricted carrier in responder mice) is used for immunization, the responses are both I-A and I-E restricted. Thus, ABA-specific responses in nonresponder mice appear in part to be restricted by the carrier used for immunization. B10.S mice, lacking functional I-E molecules, channel their ABA-specific responses entirely through I-A when immunized with ABA-GLT. These results support the hypothesis that the failure in nonresponders lies in a functional deficit in the T cell repertoire rather than an inability of accessory cells to present antigen.     

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.     

Transfer of allergic encephalomyelitis with spleen cells from donors sensitized with myelin basic protein in incomplete Freund's adjuvant

Myelin basic protein (BP) emulsified in incomplete Freund's adjuvant (BP/IFA) is relatively nonencephalitogenic in Lewis rats. Furthermore, repeated injections of BP/IFA prevent subsequent induction of experimental allergic encephalomyelitis (EAE) by BP emulsified in complete Freund's adjuvant (BP/CFA). In spite of this, spleen cells from rats injected repeatedly with BP/IFA transfer EAE after they are cultured with BP almost as effectively as BP/CFA spleen cells. However, unlike the latter, BP/IFA spleen cells do not proliferate in response to BP in culture. Furthermore, BP/IFA spleen cells are unable to transfer EAE after culture with concanavalin A (Con A), in contrast to BP/CFA spleen cells. Both populations of spleen cells undergo a strong proliferative response to Con A in culture. For BP/IFA cells, at least, a proliferative response to BP in vitro is not a prerequisite for enhanced transfer of EAE in Lewis rats.     

Immunity to herpes simplex virus type 2. Suppression of virus-induced immune responses in ultraviolet B-irradiated mice

Ultraviolet B irradiation (280 to 320 nm) of mice at the site of intradermal infection with herpes simplex virus type 2 increased the severity of the herpes simplex virus type 2 disease and decreased delayed-type hypersensitivity (DTH) responses to viral antigen. Decrease in DTH resulted from the induction of suppressor T cells, as evidenced by the ability of spleen cells from UV-irradiated mice to inhibit DTH and proliferative responses after adoptive transfer. Lymph node cells from UV-irradiated animals did not transfer suppression. DTH was suppressed at the induction but not the expression phase. Suppressor T cells were Lyt-1+, L3T4+, and their activity was antigen-specific. However, after in vitro culture of spleen cells from UV-irradiated mice with herpes simplex virus type 2 antigen, suppressor activity was mediated by Lyt-2+ cells. Culture supernatants contained soluble nonantigen-specific suppressive factors.     

ABA-specific helper T cells in A/J mice bear the major cross-reactive idiotype

Attempts were made to induce azobenzenearsonate (ABA)-specific helper cell responses in A/J mice. These were measured by an increase in TNP plaque-forming cells following administration of the double hapten conjugate ABA-bovine serum albumin-TNP. Immunization with ABA coupled homologous immunoglobulin or spleen cells produced ABA-specific help only when the same carrier was used to boost. Hapten-specific help was achieved by two injections of ABA-N-acetyltyrosine in complete Freund's adjuvant 5 weeks apart. This help was passively transferable by T cells as shown by its elimination with anti-Thy 1.2 serum and complement treatment. The presence of the major ABA cross-reactive idiotype (CRI) on these T helper cells could be similarly shown by the elimination of help when the cells were treated with rabbit anti-CRI antibody and complement prior to passive transfer. The same treatment did not effect ABA-specific helper activity of CBA/J mice.     

T-T cell interaction in the induction of delayed-type hypersensitivity (DTH) responses: vaccinia virus-reactive helper T cell activity involved in enhanced in vivo induction of DTH responses and its application to augmentation of tumor-specific DTH responses

The role of antigen-specific helper T cells in augmenting the in vivo development of delayed-type hypersensitivity (DTH) responses was investigated. C3H/HeN mice were inoculated i.p. with vaccinia virus to generate virus-reactive helper T cell activity. These vaccinia virus-primed or unprimed mice were subsequently immunized subcutaneously (s.c.) with either trinitrophenyl (TNP)-modified syngeneic spleen cells (TNP-self), vaccinia virus-infected spleen cells (virus-self), or cells modified with TNP subsequent to virus infection (virus-self-TNP). Seven days later, these mice were tested for anti-TNP DTH responses either by challenging them directly with TNP-self into footpads or by utilizing a local adoptive transfer system. The results demonstrated that vaccinia virus-primed mice failed to generate significant anti-TNP DTH responses when s.c. immunization was provided by either virus-self or TNP-self alone. In contrast, vaccinia virus-primed mice, but not unprimed mice, could generate augmented anti-TNP DTH responses when immunized with virus-self-TNP. Anti-vaccinia virus-reactive helper activity was successfully transferred into 600 R x-irradiated unprimed syngeneic mice by injecting i.v. spleen cells from virus-primed mice. These helper T cells were found to be antigen specific and were mediated by Thy-1+, Lyt-1+2- cells. DTH effector cells enhanced by helper T cells were also antigen specific and were of the Thy-1+, Lyt-1+2- phenotype. Furthermore, vaccinia virus-reactive helper T cell activity could be applied to augment the induction of tumor-specific DTH responses by immunization with vaccinia virus-infected syngeneic X5563 tumor cells. T-T cell interaction between Lyt-1+ helper T cells and Lyt-1+ DTH effector T cells is discussed in the light of the augmenting mechanism of in vivo anti-tumor-specific immune responses.     

A requirement for helper T cells in the induction of delayed-type hypersensitivity

This paper describes a model system for studying the role of helper T cells in the induction of delayed-type hypersensitivity (DTH). Cyclophosphamide- (CP) treated mice sensitized with antigen 3 days later develop high levels of delayed-type immunity; however, DTH cannot be demonstrated in mice that are sensitized with antigen 1 day after drug treatment. The inability to respond to antigen 1 day after CP treatment can be restored if either normal or low-dose primed spleen cells are transferred at the time of sensitization. Although irradiated (1500 rad) normal spleen cells are unable to restore DTH, such treatment has no effect on the primed spleen cell population. The lymphocytes responsible for restoring the DTH response were identified as T cells, in that treatment with anti-Thy-1.2 serum and C abrogated their effect. Furthermore, restoration of the DTH response was dependent on the presence of antigen at the time of lymphocyte transfer; irradiated primed cells could not transfer DTH alone. The DTH effector cells in reconstituted mice were identified as originating from the host and not from the transferred cell population. This was accomplished by using anti-H-2 serum to identify the source of the DTH effector cells after transferring parental (H-2b) irradiated primed spleen cells into CP-treated F1 mice (H-2b,k). Thus, the irradiated transferred cells are behaving as helper T cells and promoting the development of DTH effector cells in the host.     

A primary in vitro antibody assay for antigen-specific T-suppressor factor: cross-suppression of TNP-specific antibody responses by TMA-specific TsF1

We have previously shown that phenyltrimethylammonium (TMA)-specific, first-order suppressor T cells (Ts1) and soluble factors extracted from these cells (TsF1) can suppress delayed-type hypersensitivity (DTH) responses. The TsF1, as monitored in the DTH system, was characterized and found to be a single-chain, antigen-binding, I-J+, and Id+ molecule. To monitor TsF1 in an efficient manner, an in vitro antibody system was developed. The studies show that in vitro stimulation of naive A/J spleen cells with the thymic-independent antigen, Brucella abortus, to which TMA and trinitrophenol (TNP) or fluorescein (FL) are coupled (TMA-BA-TNP or TMA-BA-FL), induces significant numbers of anti-TNP or anti-FL plaque-forming cell (PFC) responses. The addition of TMA-specific TsF1 results in the cross-suppression of 30-50% of the total anti-TNP and FL PFC responses. This activity is antigen (TMA) dependent since suppression occurs only when the TMA ligand is present in the culture media. Analysis of the TNP-specific PFC responses in nonsuppressed cultures revealed that 20-35% of the PFC bear the cross-reactive idiotype(s) (CRI) normally associated with anti-TMA antibodies. In cultures containing TMA-TsF1, CRI+PFC are suppressed by 90-100% while the CRI-PFC are suppressed only by 10-30%. Our studies further show that an induction-phase, antigen-binding, CRI+, and I-J+ single-chain factor is responsible for the observed in vitro suppression. The possibility of utilizing this assay to monitor a variety of antigen-specific suppressor factors is discussed.     

Regulation of the class of immune response induced by antigen. I. Specific T cells switch the in vivo response from a cell-mediated to humoral mode

Unprimed murine spleen cells, when administered intravenously to irradiated recipients together with antigen for 7 days, are induced to display either DTH reactivity or to mount a humoral (IgM and IgG) response. The class induced depends on the number of spleen cells given to the irradiated host. A low number of cells does not support the induction of any response, a medium number only gives rise to substantial DTH reactivity, whereas a high number only mounts a humoral (IgM and IgG) response. Observations show that the higher number of T cells in a large inoculum of spleen cells, compared to the number present in a medium one, is responsible for the absence of DTH reactivity and the mounting of a humoral response. This finding suggests that the induction of DTH precursor cells may occur when fewer antigen-specific helper-T-cell-dependent signals are generated than the number of signals required to induce B-cell precursors of the IgM and IgG classes. This possibility is favored by further observations. The administration of in situ irradiated, primed helper T cells to mice reconstituted with a medium number of normal spleen cells, results both in the specific suppression of the DTH response that occurs in the absence of these primed cells and in the mounting of a humoral response.     

Characterization of suppressor cells regulating in vitro expression of IgG2A and IgG2B antibody responses

In vitro cooperative responses between hapten-primed anti-Thy-1.2 plus C-treated spleen cells and carrier-primed T cells have different isotypic patterns depending on the source of the T helper cells. T helper cells from primed lymph node induce IgG1, IgG2a, and IgG2b PFC responses, whereas T helper cells from primed spleen induce only an IgG1 type of response. The addition of activated spleen cells to the lymph node cells suppresses their ability to generate IgG2a and IgG2b PFC responses. The suppressor cells involved have been characterized. Functionally, they appear as nonantigen specific and isotype specific, because they never reduce the IgG1 response. They are Lyt-2.2 positive, Lyt-1 negative, and radiosensitive. Their relative resistance to anti-Thy-1.2 plus C treatment indicates that they express low amounts of this antigen or that they are heterogeneous concerning the expression of Thy-1.2.     

Long-term effects of in vitro sensitization on immune reactivity of lymphocytes: generation of suppressor and helper T cells.

Mouse spleen cells were cultured for 5 days with or without HRBC. Cultured cells were 'parked' in irradiated syngeneic recipients for 3 weeks and then tested for their immunologic reactivity in vitro. We found that spleen cells from recipients of HRBC-sensitized cells (S) as well as spleen cells from recipients of control unsensitized cells (U) possessed radiosensitive suppressor and radioresistant helper activities. Suppressor activity was observed by the capacity of unirradiated S and U spleen cells to inhibit the in vitro generation of IgM and IgG PFC by spleen cells primed in vivo to HRBC or to LacKLH. Helper activity was shown by the capacity of the irradiated S and U cells to restore IgM and IgG PFC responses of in vivo primed, T-depleted spleen cells to HRBC, LacHRBC, and LacCRBC. Both suppressor and helper activities were mediated by T cells. The possibilities that immunologically specific or nonspecific mechanisms account for these phenomena are discussed.     

A cascade of T-T interactions, mediated by the linked recognition of antigen, in the induction of T cells able to help delayed-type hypersensitivity responses

Previous work has shown that specific helper T cells are required for the primary induction of delayed-type hypersensitivity (DTH). Conditions are defined here under which the primary induction by antigen of precursor helper T cells only occurs in the presence of specific, irradiated effector T cells, demonstrating that the induction of helper T cells requires T-T cooperation. The interaction between precursor and effector helper T cells is mediated by the recognition of epitopes that must be physically linked to one another. In more detail, hapten-Ficoll conjugates and xenogeneic red blood cells induce medium-density but not low-density cultures of unprimed murine spleen cells to express antigen-specific DTH. Low-density cultures do not support the induction of DTH unless they are supplemented with specific irradiated helper T cells. These helper T cells are themselves induced when antigen is added to medium-density but not low-density cultures. Precursor helper T cells in low-density cultures are only induced by antigen in the presence of additional specific irradiated T cells. Further experiments were directed at analyzing the nature of this T-T interaction. Irradiated hapten-primed T cells help the induction of precursor helper T cells specific for burro red blood cells (BRBC) in the presence of haptenated BRBC and chicken red blood cells (CRBC), but do not help in the presence of haptenated CRBC and BRBC. These experiments demonstrate that the interaction between precursor and effector T cells is mediated by the linked recognition of antigen. These findings show that the induction of precursor cells for both DTH reactivity, and those T cells able to help in the induction of DTH, require specific helper T cells. It is further shown that the induction of T cells able to help in the induction of helper precursor cells takes place in medium-density but not low-density cultures. In order words, antigen, when added to medium-density cultures of normal spleen cells, induces T cells able to mediate DTH, and T cells able to help in the induction of these helper T cells, whereas antigen induces none of these T cells when added to low-density cultures unless appropriate specific helper T cells are added.(ABSTRACT TRUNCATED AT 400 WORDS)     

T cell control of the antibody response to the T-independent antigen, DAGG-Ficoll

C57BL/6J nu/nu mice respond to the type 2 TI antigen DAGG-Ficoll, but not to the TD antigen SRC. A comparable difference can also be seen in vitro, but only at high spleen cell density and in the presence of selected batches of FBS. At low spleen cell density and in the absence of FBS, the DAGG-Ficoll-induced B cell response is strictly dependent on soluble helper factors or cloned specific helper T cells. The B cell response so induced requires that the T cell-depleted spleen cells be compatible in the I-A subregion of the H-2 complex. These helper factors, induced by antigen in an I-A-restricted T cell-macrophage interaction, provide helper for T cell-depleted spleen cells irrespective of their H-2 haplotype. Under conventional culture conditions, the stringent requirement for helper factors in the in vitro response to DAGG-Ficoll is obscured by FBS. In vitro culture of low numbers of spleen cells, in serum-free medium instead of FBS, provides a sensitive assay for helper factors. We have compared the helper activity for a B cell response to SRC or DAGG-Ficoll as provided by antigen-induced supernatants of various individual EA-specific T cell clones. There was a remarkable and consistent heterogeneity among individual T cell clones: their helper activity in the response to TI and TD antigens did not correlate, nor was there any correlation between helper activity and antigen-induced TCGF (interleukin 2) activity.     

Regulation of hapten-specific T-cell response. II. Functional analysis of helper T cells and cytotoxic T cells in animals suppressed by azobenzenearsonate (ABA)-specific suppressor T cells

The administration of azobenzenearsonate-modified syngeneic spleen cells (ABA-SC) intravenously induces a population of first order hapten-specific inducer suppressor T cells (Ts1), which downregulate various aspects of T-cell-mediated immune responses via a well defined suppressor-T-cell pathway. In this study, we investigated the effects of these suppressor cells on the generation of ABA-specific cytolytic T lymphocytes (CTL) and helper T cells (Th) in vivo. We found evidence for functional impairment of ABA-activated Th and ABA-specific CTL precursors (CTLp) in the suppressed animals by a number of different in vitro criteria. Functional analysis of ABA-specific CTLp and ABA-activated Th in suppressed animals revealed that ABA-specific Ts inhibit the generation of CTL by impairing the antigen-specific activation of Th, which may in turn, prevent the clonal expansion of antigen-specific CTLp. The significance of these findings in relationship to our understanding of the cellular interactions necessary for the generation of CTL and the mode of action and mechanisms of suppressor T cells is discussed.     

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.     

Functional differentiation in the genetic control of murine T lymphocyte responses to human fibrinopeptide B

The ability to generate proliferative and helper T lymphocyte responses in mice was compared by using the 14 amino acid peptide, human fibrinopeptide B (hFPB). Lymph node or peritoneal exudate T cells from mice immunized with hFPB were assessed for in vitro proliferation to soluble hFPB as determined by the uptake of 3H-thymidine. The T cell proliferative response to hFPB was found to be under MHC-linked Ir gene control; mice possessing the H-2a,k haplotypes were responders, whereas H-2b,d,q,s mice were nonresponders. The influence of non-H-2 genes on these responses was not investigated, so exclusive regulation by H-2 is provisional. The absence of a detectable lymph node and peritoneal exudate T cell proliferative response persisted in H-2b,d,q,s mice after immunization and boosting with several doses of hFPB. In addition, the capacity to produce a T cell proliferative response was inherited in an autosomal dominant manner and gene(s) controlling responsiveness to hFPB mapped to the I-A subregion of the H-2 complex. To measure peptide-specific helper T cell activity, an in vitro microculture assay in which hFPB-primed lymph node T cells and normal spleen B cells and macrophages were used was developed measuring anti-fluorescein isothiocyanate (FITC) IgM and IgG plaque-forming cell (PFC) responses after culture with FITC-conjugated peptide. Immunization of B10.BR, C57BL/10, B10.D2, and B6AF mice with hFPB primed for significant helper T cell activity as assessed by the ability to augment a primary in vitro IgM response to FITC. The normal B cell IgM responses were completely dependent on hFPB-primed T cells and required that hapten (FITC) and carrier (peptide) be linked. In addition, immunization with FITC-conjugated peptide elicited positive in vivo PFC responses to FITC in B10.BR and C57BL/10 mice, indicating similar genetic control of helper activity in both the intact animals and the in vitro microcultures. Thus, B10.BR mice show both T help and T proliferative responses to hFPB, whereas C57BL/10 mice show only T help and no T proliferative responses. In contrast to B10.BR mice, C3H and CBA mice immunized with hFPB were completely unresponsive when assayed for helper T cell activity in vitro despite their ability to generate positive lymph node T cell proliferative responses. These results indicate responsiveness to hFPB by T helper and proliferating cells is different and is under separate genetic control.