Analysis of lymphocytes reactive to histocompatibility antigens. II. Exponential alloantigen-dependent lymphocyte growth in vitro

Rat thoracic duct lymphocytes were maintained in continual blast transformation and cell division by repeated in vitro stimulation with allogeneic cells. This resulted in increases in responder cell numbers of up to 10,000-fold in 10-day periods. Growth of responder lymphocyte populations was dependent upon cell density, culture medium nutrients, and the presence of antigen in the form of allogeneic cells. A titration assay for mixed lymphocyte interactions (MLI) was used to relate absolute growth of cells in preparative cultures to [³H]thymidine incorporation in analytical MLI. Growth of lymphocyte populations derived by repeated stimulation with cells bearing a single foreign MHC haplotype was supported to lesser, variable degrees by stimulation with unrelated “third party” stimulator cells. The extent of this operational cross-reactivity was assessed by parallel line analysis of MLI titrations of responder lymphocytes enriched for specific alloreactivity.     

Analysis of lymphocytes reactive to histocompatibility antigens. III. Detection of inclusion among allo-reactive lymphocyte populations by specific depletion of reactive cells.

We have used a quantitative titration assay for mixed lymphocyte interactions to determine the additivity of responses of rat lymphocyte populations to simultaneous stimulation with major histocompatibility complex alloantigens from pairs of apparently unrelated rat strains. Our inability to detect strict additive stimulation led us to investigate inclusion among allo-reactive lymphocyte populations. After specific depletion of reactivity to PVG by negative selection through an AO × PVG F₁ hybrid rat, AO thoracic duct lymphocytes showed an asymmetrical loss of reactivity to the unrelated strains DA and F344. We suggest that this differential loss of reactivity probably reflects alloantigen sharing among rat strains which had been previously undetected using other less sensitive techniques for the quantitation of lymphocyte reactivity after specific depletion of allo-reactive cells.     

Cytotoxic cells suppress in vitro generation of cellular immunity by stimulator cell lysis

Irradiated BALB/c spleen-cell populations actively cytotoxic to BL/6 alloantigens (modulator cells) were capable of suppression of the in vitro generation of BALB/c anti-BL/6 cellular cytotoxicity. This suppression was abrogated by anti-θ serum plus complement. The suppression was dose dependent on the number of modulator cells and correlated directly with the magnitude of their cytotoxicity. By varying the number of stimulator cells, specific suppression for a relevant stimulator cell and nonspecific suppression for an irrelevant stimulator cell were demonstrated in the same cultures. These data suggest that cytotoxic cells caused specific suppression in mixed lymphocyte culture by lysing stimulator cells although evidence for other nonspecific suppressor factors was seen. A model was proposed suggesting that cell populations possessing high levels of cytotoxicity may feed back negatively on an ongoing immune response by competing with proliferating T cells for cellular antigen.     

SPECIFIC positive and negative selection of rat lymphocytes reactive to strong histocompatibility antigens: activation with alloantigens in vitro and in vivo.

This study compares the functional properties of rat thoracic duct lymphocytes (TDL) after stimulation with strong alloantigens of the major histocompatibility complex (MHC) either in vitro in preparative mixed lymphocyte interactions (MLI) or in vivo in systemic graft-vs-host (GVH) reactions. Comparisons were made of PHA responses and reactivity to the specific priming haplotypes or to third party haplotypes in analytical MLI and in GVH reactions either before or after the activated populations were "parked" in syngenetic T cell-deprived (B) rats. These comparisons can be summarized as follows: 1) TDL populations primed in bulk MLI cultures (MLI-TDL) slowed some evidence of specific positive selection when tested immediately; MLI responses to specific alloantigens were both relatively large and accelerated in tempo, whereas responses to third party alloantigens were diminished but also accelerated in tempo. Specific GVH responses were more marked than in third party recipients but they were also decreased relative to normal, and displayed an abberant dose/response slope. MLI-TDL populations tested after they had been stored in syngeneic B rats showed clear evidence of stable-specific positive selection; specific MLI and GVH responses were enriched relative to third party responses and also in comparison to normal, unselected TDL populations. This finding indicates that GVH and MLI reactivity are probably both functional capacities of the same lymphocyte subpopulation since positive selection by one function (MLI) also enriched for a second (GVH). 2) Parental strain TDL activated in vivo in the systemic GVH reaction in irradiated F1 animals and recovered from the thoracic duct 3 to 4 days later (late GVH-TDL) consisted mainly of blast cells, however, in contrast to MLI-TDL these populations showed no evidence of positive selection when tested before or after parking in B rats. MLI responses to specific alloantigens were minimal, and greatly reduced in magnitude compared to normal. GVH responses to specific haplotypes could be detected, but these were not enriched compared to normal, despite the content in the late GVH-TDL populations of a significant proportion of blast cells presumably activated by host alloantigens. 3) Early collections (less than 40 hr) of parental strain GVH-TDL collected from F1 recipients contained no blast cells and showed impressive degrees of negative selection; they were markedly depleted of both GVH and MLI activity to specific alloantigens but displayed normal reactivity to third party alloantigens. Moreover, specific negative selection was persistent in these populations parked for several weeks in B rats, and indication that a specific subpopulation of reactive cells had been physically eliminated. 4) PHA responses of both MLI- and GVH-activated TDL populations tested either before or after parking in B rats were approximately normal on a per T cell basis...     

Synergy among rat T cells in the proliferative response to alloantigen.

A synergistic interaction in the proliferative response to alloantigen is described for mixtures of rat thymus and lymph node cells. The optimal conditions for synergy are quantitatively defined. Regression analysis of the slope of the dose-response curve has been utilized to estimate the degree of interaction in thymus-lymph node cell mixtures. The slope of the response of cell mixtures was noted to be significantly greater than the slope for the response of lymph node cells alone. Irradiation was shown to have a differential effect on the response of thymus and lymph node cells in mixtures. Irradiated thymus cells retained the capacity for synergy in mixtures, whereas irradiated lymph node cells did not. Additional studies have demonstrated that both de novo protein synthesis and specific antigen recognition by both responding cell populations in mixtures was required for maximal synergy. These studies demonstrate that synergy cannot be explained as an artifact of altered cell density in vitro. They establish that thymus cells and lymph node cells represent distinct subsets which manifest qualitatively different functions in the proliferative response to alloantigen. Thymus cells can respond directly to alloantigen by proliferation but also have the capacity to amplify the proliferative response of lymph node cells—a capacity which is resistant to X irradiation but requires recognition of alloantigen and de novo protein synthesis. Lymph node cells may similarly respond by proliferation to alloantigen but lack the amplifier activity of thymus cells. Synergy for rat lymphoid cells, like mouse lymphoid cells, has been shown to involve an interaction of thymus-derived lymphocytes.     

Interaction of Ia-molecule of specific T-suppressor with complementary structure of syngeneic responding T-lymphocyte

To achieve inhibition of proliferation of alloantigen-induced T-lymphocytes in mixed lymphocyte culture by specific suppressor T cells (SSTC), identity of SSTC and responder in MHC class II antigens is required; either in IC or in IA + IE. By shielding of the SSTC with antiserum to ICd product (without complement), it is demonstrated that ICd product is expressed on the SSTC surface only, rather than on the surface of both stimulator and responder cells (native or preactivated with the alloantigen). Pretreatment of SSTC with anti-ICd antibodies in the absence of complement does not prevent specific SSTC interaction with the alloantigen, but prevents the SSTC function in reversible fashion. Because part of responders preactivated with an alloantigen acquired a capacity to adhere to the syngeneic SSTC monolayer, it is supposed that a receptor to the syngeneic Ia-molecule of SSTC membrane arises on the surface of preactivated responder T cells, which results in direct interaction between these two cells, reflecting the "interactional restriction" mechanism of SSTC function.     

In vitro secondary MLR. I. Kinetics of proliferation and specificity of in vitro primed responder cells.

We have examined the kinetics and specificity of secondary in vitro mixed lymphocyte reactions (MLR). With limited numbers of primed responder cells (PRC) in the presence of "excess antigen" it was possible to obtain proliferative responses that were proportional to the number of PRC initially placed in culture. The responding cells, after an initial lag period, seem to grow exponentially until day 3 of culture. The responses of PRC (with the strain combinations and culture conditions described in this report) seemed to be directed toward stimulator cell determinants whose expression was determined by genes in the I region of the MHC. In one case, the relevant incompatibilities could be further restricted to the I-A region. Although PRC responded best to stimulator cells sharing the I region with the priming stimulator cell, apparent cross-reactivity could be observed by restimulating PRC with stimulator cells that did not carry the MHC haplotype of the priming stimulator cell. The rate of proliferation (measured as 3H-thymidine incorporation) in these apparent cross-reactions was reproducible and comparable to the rate observed in response to the priming stimulator cell. It was possible, therefore, to estimate the proportion of PRC that reacted in the presence of third party stimulator cells compared to the response of these PRC to the priming stimulator cells. We have estimated that the response of A (B6) PRC against H-2d and H-2s haplotype stimulator cells is about half of the response of these PRC to H-2b, the priming stimulator cell.     

Beta (1-3) glucans as a probe for T cell specific immune adjuvants. II. Enhanced in vitro generation of cytotoxic T lymphocytes.

The capacity of five antitumor polysaccharides (PS) of the β (1–3) glucan type, lentinan, pachyman, pachymaran, carboxymethylpachymaran and hydroxyethylpachyman to augment the in vitro generation of alloreactive cytotoxic T lymphocytes (CTL) in a primary murine mixed lymphocyte culture was tested in detail. All of the PS tested, each at its own optimal concentration, induced enhanced alloreactive CTL responses. Lentinan, pachymaran and hydroxyethylpachyman increased the magnitude of the in vitro CTL responses up to 28 fold. The PS tested appeared to enhance the responsiveness of alloreactive prekiller T cells rather than the immunogenicity of the stimulator cells. Kinetic experiments indicated that in vitro CTL responses could be augmented when PS were added as late as 72 hr after initiation of the cultures, suggesting that PS influences the differentiation of antigenically triggered CTL precursors into cytotoxic effector cells. PS also augmented in vitro the generation of H-2 restricted hapten-specific CTL. The results indicate that the PS tested are effective immune adjuvants of both alloreactive CTL responses and H-2 restricted CTL responses specific to foreign antigens.     

Direct visualization of cross-reactive effector and memory allo-specific CD8 T cells generated in response to viral infections

CD8 T cell cross-reactivity between heterologous viruses has been shown to provide protective immunity, induce immunopathology, influence the immunodominance of epitope-specific T cell responses, and shape the overall memory population. Virus infections also induce cross-reactive allo-specific CTL responses. In this study, we quantified the allo-specific CD8 T cells elicited by infection of C57BL/6 (B6) mice with lymphocytic choriomeningitis virus (LCMV). Cross-reactive LCMV-specific CD8 T cells were directly visualized using LCMV peptide-charged MHC tetramers to costain T cells that were stimulated to produce intracellular IFN-gamma in response to allogeneic target cells. The cross-reactivity between T cells specific for LCMV and allogeneic Ags was broad-based, in that it involved multiple LCMV-derived peptides, but there were distinctive patterns of reactivity against allogeneic cells with different haplotypes. Experiments indicated that this cross-reactivity was not due to the expression of two TCR per cell, and that the patterns of allo-reactivity changed during sequential infection with heterologous viruses. The allo-specific CD8 T cells generated by LCMV infection were maintained at relatively high frequencies in the memory pool, indicating that memory allo-specific CD8 T cell populations can arise as a consequence of viral infections. Mice previously infected with LCMV and harboring allo-specific memory T cells were refractory to the induction of tolerance to allogeneic skin grafts.     

The cytotoxic T-cell response to H-1 minor histocompatibility antigen differences

H-1-specific cytotoxic T cells were generated in in vitro secondary cultures. Effectors were assayed on H-2 compatible, peritoneal exudate cell targets in a ⁵¹Cr release assay. Target-cell lysis appeared to be specific for the H-1 type of the stimulator cells. Effector cells were T cells since they expressed Thy 1.2 alloantigen and required H-2 compatibility between donors of the stimulator cells, responder cells, and target cells for efficient lysis. Peritoneal exudate cells were found to be efficient specific competitors in the cytotoxicity assay. There appeared to be no strict correlation between in vitro cytotoxic T-cell activity and mean skin graft rejection times for a number of minor H and H-2D differences.     

Modulation of T-cell antigen receptor on lymphocyte membrane

A mouse monoclonal antibody, Mo. Ab. 108.45, detecting cell-surface determinants associated with the T-cell receptor for alloantigen was produced by immunizing mice with an alloreactive human T-cell clone and fusing the splenocytes with the NS₁ plasmocytoma. This Mo. Ab. (1) reacts with the immunizing T-cell clone but not with autologous or allogeneic lymphocytes, lymphoblasts or monocytes; (2) stimulates the proliferation of the immunizing T cells in the absence of the alloantigen; (3) inhibits the response to the specific stimulator; and (4) precipitates a disulfied linked heterodimer composed of two distinct glycoproteins of molecular weights 40 000 and 46 000. The receptor molecule detected by Mo. Ab. 108.45 modulates on the surface of the cells, reaching the highest levels 5 days following exposure to the specific stimulator. The receptor-associated molecule detected by Mo. Ab. 108.45 was expressed by T-cell clones obtained independently in two different mixed lymphocyte cultures between the same responder and stimulator.     

The immunobiology of the T cell response to Mls-locus-disparate stimulator cells. I. Unidirectionality, new strain combinations, and the role of Ia antigens

The primary mixed lymphocyte reaction of T cells to Mls-locus-disparate stimulator cells differs from that to non-self Ia antigens in several respects. In the present experiments, the unidirectional nature of this response is shown in several strain combinations, including the newly detected Mlsa and Mlsa-like alleles expressed by strains PL/J, RF/J, and SM/J. All of these strains stimulate MHC-identical T cells strongly. In addition, they stimulate a variety of cloned T cell lines specific for Mlsa,d, which can thus be shown to respond to Mlsa,d stimulators of the H-2b,d,k,u, and v haplotypes. Although these results suggest that primary T cell responses to Mlsa,d are unlikely to be MHC restricted, these primary responses are readily inhibited by monoclonal antibodies specific for the I-A and especially the I-E products borne by the stimulator cells, as well as by monoclonal antibodies specific for L3T4a on the responding T cells. This effect of anti-Ia antibodies is not overcome by exogenous interleukin 1. Thus, I-A and especially I-E molecules are centrally involved in the unidirectional primary T cell response to the potently stimulating Mlsa and Mlsd alleles expressed by cells of several different MHC haplotypes.     

Biological characterization of T and B lymphocytes separated from normal mouse spleen by a physical adherence column method

The capacity of spleen cell populations enriched for T and B lymphocytes by a physical adherence column method to respond in vitro to phytomitogens and allogeneic lymphocytes was determined. Column filtrate cells (T lymphocytes) responded well to phytohaemagglutinin- and mitomycin-C-treated allogeneic spleen cells, but poorly to pokeweed mitogen. Adherent cell populations from the column (B and some T lymphocytes) responded well to pokeweed mitogen, but poorly to phytohaemagglutinin- and mitomycin-C-treated allogeneic cells.Purified peripheral T lymphocytes prepared from normal mouse spleen by the column method reconstituted the depleted in vitro antibody response to the thymic-dependent SRBC antigen of all B lymphocyte sources tested, namely, spleen cells from congenitally athymic mice, neonatally thymectomized mice, and adult thymectomized mice which had been reconstituted with bone marrow, and a lymphocyte population prepared by incubating spleen cells with anti-θ serum and complement. When transferred with sheep erythrocytes to congenitally athymic mice, purified peripheral T cells restored the in vivo IgM and IgG responses of these animals. These results confirm that the column filtrate is a thymus derived subpopulation of cells capable of cell-mediated immunity and cooperation with B lymphocytes in humoral immunity both in vitro and in vivo.     

Cell-mediated immune responses in vitro. II. Simultaneous generation of cytotoxic lymphocyte responses to two sets of alloantigens of limited cross-reactivity.

The conditions for generation of simultaneous and independent cytotoxic lymphocyte (CL) responses to each of two sets of alloantigens of limited cross-reactivity by mouse spleen cells in vitro have been investigated. Responder spleen cells were incubated with mitomycin C-treated C57BL/6 (H-2b) or DBA/2 (H-2d) stimulator spleen cells and day 5 CL responses were assayed with 51Cr-labeled EL-4 leukemia (H-2b) and P815 mastocytoma (H-2d) as target cells. Spleen cells from mice of the various H-2 haplotypes tested differed greatly in their ability to develop specific CL responses against alloantigens on the stimulator spleen cells and in the degree of cross-reactive cytotoxic activity against target cells bearing alloantigens not present on the stimulator spleen cells. In contrast to the other strains examined, DBA/1 (H-2q) spleen cells developed specific CL responses to either H-2b or H-2d alloantigens without exhibiting significant cross-reactive activity on the inappropriate target cell. The CL responses to H-2b and H-2d alloantigens by DBA/1 spleen cells were comparable in magnitude and had similar stimulator cell-dose requirements. Further, DBA/1 spleen cells developed CL responses of normal magnitude simultaneously against both target cells when incubated with both mitomycin C-treated C57BL/6 and DBA/2 stimulator cells.     

Antigen-specific and nonspecific mediators of T-cell/B-cell cooperation. VI. Distinct patterns of cross-reactivity by two human gamma-globulin-primed helper T-cell subpopulations.

We have previously characterized the activities, in vitro, of two different helper T-cell subpopulations, primed with human γ-globulin (HGG). One T-cell subpopulation helps the response of B cells to determinants (e.g., haptens) bound to the same antigen to which the T cells are primed (specific help); the other helper T-cell subpopulation responds to the same priming antigen by secreting a nonspecific molecule which helps B-cell responses to erythrocyte antigens co-cultured with the priming antigen (nonspecific help). These subpopulations also differ in their frequency and dose response to antigen, both in vivo and in vitro. They are similarly susceptible to the induction of unresponsiveness to HGG. In order to determine whether these T-cell subpopulations share or differ in their ranges of antigen recognition, we have compared the reaction of these two HGG-primed helper T-cell subpopulations to a number of γ-globulins (γG's) from other species. Plaque-forming cells generated in response to HGG shared little or no cross-reactivity with any of the heterologous (γG's) tested. In contrast, HGG-primed nonspecific helper T cells responded with significant cross-reactivity when challenged in vitro with dog γG, but HGG-primed specific helper T cells did not respond with any such cross-reactivity. No other heterologous γG tested stimulated any significant cross-reactivity from either HGG-primed T-cell subpopulation. Thus, these two T-cell subpopulations differ in their antigenic recognition. Possible explanations of these data include: (i) a difference in receptor specificity; (ii) a difference in the receptor affinity; (iii) a difference in Ia determinants of the two subpopulations.     

Cooperation between mouse T-cell subpopulations in the cell-mediated response to a natural poxvirus pathogen.

Irradiated CBA anti-DBA/2 cells (10⁶ cells/culture) suppressed the production of effector cells in cultures containing 10⁷ unprimed CBA (responder) and 10⁶ irradiated DBA/2 (stimulator) spleen cells per culture. The suppressive element was cellular and suppression was specific for the stimulating antigen. The suppressive activity resided in the cytotoxic cell population in that both suppressive and cytotoxic activities were found in cells of the same size range, predominantly in T-cells, were produced in response to similar doses of stimulator antigen, and were produced with the same time course following establishment of first sensitization cultures. Eventual suppression correlated with the cytotoxic activity introduced into second sensitization cultures by suppressor cells. The short-term cytotoxic activity and suppressor activity were both highly radioresistant. These studies indicate that the suppressor cells formed in an in vitro mixed lymphocyte culture are cytotoxic to stimulator cells.     

Human cytotoxic lymphocytes. IV. Frequency and clonal specificity of CD8+CD16-(Leu2+Leu11-) and CD16+CD3-(Leu11+Leu4-) cytotoxic lymphocyte precursors activated by alloantigen or K562 stimulator cells

Cell sorter-purified CD8+CD16- (Leu2+Leu11-) cytotoxic T cell precursors and CD16+CD3-(Leu11+Leu4-) natural killer (NK) cells were cultured under limiting dilution (LD) conditions with allogeneic stimulator cells or with K562 tumor cells in the presence of exogenous interleukin 2. One out of 100-200 alloantigen-stimulated Leu2+ T cells clonally developed into an alloantigen-specific cytotoxic T cell, but only 1 out of 500-3400 of these cells lysed NK-susceptible K562 target cells. In contrast, 1 out of 2-35 alloantigen-stimulated Leu11+ precursor cells developed into an effector cell that lysed K562, but less than 1 out of 500 of these cells lysed allogeneic Con A blast targets. However, clonal activation of Leu11+ precursor cells under LD conditions did not require alloantigenic stimulator cells. Comparable high frequencies (f = 1/3 to 1/28) of anti-K562 cytotoxic lymphocyte precursors were thus measured when Leu11+ precursor cells were cultured on autologous or K562 feeder cells. As shown by a split culture approach, the vast majority of alloantigen-activated Leu2+ effector cells were highly specific for the stimulating alloantigen (i.e., they did not lyse K562), while the majority of Leu11+ microcultures lysed K562 tumor cells but neither autologous nor allogeneic Con A blast targets. On a quantitative basis, these data show that CD8+CD16- T cells and CD16+CD3-NK cells are two mutually exclusive lymphocyte populations which clonally develop into cytotoxic effector cells specific for alloantigen or K562 target cells, respectively.     

In vitro alloreactivity of mouse bone marrow lymphocytes

Before characterizing alloreactive cells of the bone marrow, it was necessary to reevaluate the alloantigen response in this tissue. The results of previous studies using the parental-F₁ system in the mixed-lymphocyte reaction (MLR) are open to question because of the recently documented proliferation of F₁ stimulator cells (W. H. Adler, T.Takiguchi, B. Marsh, and R. T. Smith,J. Immunol. 105, 984, 1970; P. F. Piguet, H. K. Dewey, and P. Vassalli, J. Exp. Med. 146, 735, 1977). The culture system was optimized for measuring the MLR of bone marrow lymphocytes enriched on sucrose density gradients. The proliferative response of the enriched fraction (BML) to 2000-R irradiated allogeneic spleen cells was three times as high as the response of unfractionated bone marrow. For maximal responses, antigen concentration had to be twice as high for the BML as for the lymph node, and in a time course study the highest [³H]TdR uptake occurred on Day 3 in BML cultures and on Day 5 in the LN. In lymph node semiallogeneic cultures stimulator cell proliferation can be disregarded, while semiallogeneic BML MLR err significantly on the high side. When BML were matched with allogeneic stimulator cells at the H-2 locus, they gave good MLR responses, provided there was a minor Mls histocompatibility locus difference, while in the lymph node the response was greatly diminished in similar mixtures. The differences in the BML and lymph node alloantigen responses with respect to antigen concentration, kinetics and susceptibility to F₁ and Mls stimulation, suggest that the bone marrow alloantigen response is mediated by a cell population that is different than alloresponsive cells in the lymph node.     

Formation of heterophile antibodies by human tonsilar lymphocytes: II. In vitro stimulation with allogeneic cells

Short-term cultures of human tonsilar lymphocytes (HTL), 5 × 10⁶ cells/culture, in medium RPMI 1640 supplemented with human group AB serum were studied for the production of plaque-forming cells (PFC) against sheep (SRBC) and bovine (BRBC) red blood cells following in vitro stimulation by various allogeneic lymphoid cells. Of 55 HTL specimens examined, 48 produced a significant number (50–300/culture) of PFC against SRBC and/or BRBC following the in vitro stimulation. The optimal doses of the stimulator HTL and peripheral blood lymphocytes (PBL) were 10⁷ and 5 × 10⁶/culture, respectively. After the stimulation, PFC appeared in significant numbers on the third day, reached the peak number on the sixth day, and decreased sharply in number thereafter. Removal of E-rosetting cells from both stimulator and responder populations abolished the PFC formation. PFC formation against SRBC was inhibited by solubilized Forssman antigen, while PFC formation against BRBC was inhibited strongly by Hanganutziu-Deicher antigen, hardly by Paul-Bunnell antigen and not at all by Forssman antigen. Supernatants of mixed lymphocyte culture of PBL were shown to enhance PFC formation of HTL cultures stimulated by allogeneic lymphocytes. The results of this study indicated that in vivo primed B cells of the HTL were triggered in vitro by allogeneic stimulation for the heterophile antibody formation. Since these antibodies are apparently directed against Forssman and Hanganutziu-Deicher antigens, the “allo” nature of these antigens as well as their relationship to the previously described heterophile transplantation antigens have to be clarified.     

Suppression of bovine T- and B-lymphocyte responses by fetuin, a bovine glycoprotein

Fetuin, a bovine glycoprotein present in milligram amounts in fetal calf serum, suppressed lymphocyte responses to phytohemagglutinin (PHA) by 70–90%. T-lymphocyte-enriched populations were suppressed by fetuin in their response to PHA indicating direct T-cell regulation and suggesting that macrophages were not required for fetuin activity. Lymphocyte responses to the lipopolysaccharides (LPS) of Escherichia coli and Brucella abortus in the presence of fetuin were markedly reduced compared to cultures without fetuin. Fetuin also suppressed alloantigen recognition in 85% of the mixed-leukocyte responses, and primary in vitro antibody responses induced by the LPS of B. abortus. No toxicity to responding cells or inhibition of early cell division could be demonstrated. A mechanism of regulation appeared to be via suppressor cells. Lymphocytes maintained in fetuin for 48 hr, but not beyond 72 hr, exhibited suppressor cells which could modulate normal adult lymphocyte responses to PHA.