Induction of interleukin 3 but not interleukin 2 or interferon production in the syngeneic mixed lymphocyte reaction

The syngeneic mixed lymphocyte reaction (SMLR) was assayed in the medium containing syngeneic normal mouse serum (NMS), by using nylon-adherent stimulator cells and nonadherent responder T cells, which were prepared from murine spleens in the absence of fetal calf serum (FCS) to avoid any sensitization to xenogeneic protein antigens. The responder cells in this SMLR, without definite background proliferation, generated specific proliferative response to the syngeneic stimulator cells in a dose-related fashion. The SMLR was accompanied by production of interleukin 3 (IL 3) but not interleukin 2 (IL 2) or interferon (IFN). No cytotoxicity against the syngeneic or allogeneic target cells was induced. Correlating with no production of IL 2 or IFN, no natural killer (NK) activity was detected. The proliferation was not inhibited by addition of specific antiserum for IFN-gamma. In contrast, proliferation in the responder cells when incubated with allogeneic stimulator cells was inhibited by anti-IFN-gamma serum and accompanied by production of IL 2 and IFN as well as IL 3, and by augmentation of NK activity and generation of cytotoxic T cells. Cell surface analysis revealed that the cells producing IL 3 in this SMLR system were Thy-1+ Lyt-1+2- helper T cells. Cells responding to the SMLR culture fluids with DNA replication were Thy-1-Lyt-1-2- asialo GM1- no-marker cells, which were the same as a population responsible for partially purified IL 3. On the other hand, when the responder cells were exposed to FCS before culture and assayed for SMLR in the FCS-free NMS medium, variable levels of IL 2 production were induced in response to the stimulator cells. The responder cells generated a high background DNA replication in the absence of syngeneic stimulators, suggesting that this IL 2 production may result from the stimulation of T cells by FCS as a foreign antigen. Overall, these results suggest that the SMLR may be a cellular interaction, in which non-T cells stimulate Lyt-1+2- helper T cells to produce IL 3 but not IL 2 or IFN. This IL 3 can, in turn, induce proliferation of IL 3 responding cells, which appear to be early precursors in lymphocyte differentiation, but no proliferative response or activation of IL 2- and IFN-dependent mature T cells or NK cells.     

Differential effect of anti-beta 2-microglobulin on IL 2 production and IL 2 receptor expression in the primary mixed lymphocyte culture reaction

The mechanism of inhibition of the proliferative response in primary mixed lymphocyte culture (1 degree MLC) by antibodies to beta 2-microglobulin (beta 2m) was investigated. It is demonstrated that anti-beta 2m antibodies inhibit the production of interleukin 2 (IL 2). In contrast, the expression of IL 2 receptor is not affected by anti-beta 2m. The addition of purified exogenous IL 2 to the antibody-treated 1 degree MLC can completely restore the proliferative response, indicating that anti-beta 2m does not interfere with IL 2 binding to its receptor. Similarly, anti-beta 2m does not interfere with the capacity of IL 2-dependent T cell lines or T cell clones to respond to exogenous IL 2. The inhibition of cell proliferation and IL 2 production by anti-beta 2m is maximal when the antibody is added at the beginning of 1 degree MLC culture, and no effect of anti-beta 2m is seen when added after 3 days of culture. Anti-beta 2m has no effect on mitogen-induced cell proliferation and IL 2 production. Anti-beta 2m acts on the responder cell population, as demonstrated in experiments in which responder cells or stimulator cells are treated separately with the antibody. The expression of HLA-class II antigens (i.e., HLA-DR and DQ (DC) on the T cells activated on 1 degree MLC is not affected by anti-beta 2m. These studies indicate that the HLA-beta 2m class I antigen complex plays a role in T lymphocyte activation via release of IL 2, and suggest the existence of different mechanisms for activation of IL 2 producers and IL 2 responders in 1 degree MLC.     

Lymphocyte responses to syngeneic antigens. I. Enhancement of the murine autologous mixed lymphocyte response by polyethylene glycol

The normally weak murine T-cell proliferative response against autologous non-T stimulator cells (the autologous mixed lymphocyte culture (MLC) was enhanced markedly by inclusion of the hydrophilic polymer, polyethylene glycol (PEG), into the culture medium. Potentiation of the autologous MLC was indicated on the basis of increased [³H]TdR incorporation by responding cells, as well as by the numbers of viable cells recovered from mixed cell cultures. PEG is not a polyclonal activator of T and/or B lymphocytes, since nylon wool nonadherent lymphoid cells (T cell-enriched fraction), nylon wool adherent cells (B cell-enriched fraction) and T cell-deficient “nude” spleen cells were not stimulated into DNA synthesis when cultured separately with PEG. Inclusion of 4% PEG into the culture medium was found to optimally enhance autologous MLC, although concentrations between 2 and 5% also significantly elevated responsiveness. At a responder/stimulator ratio of 1:2, autologous MLC yielded peak [³H]TdR incorporation after 5 days of culture. At lower ratios (1:1 and 2:1), however, Δ cpm of autologous MLC continued to increase over a culture period of 7 days. Enhanced responsiveness in the presence of PEG was observed in strains of mice representing a variety of H-2 haplotypes, indicating that at least the potential for autoreactivity of this type is a naturally occurring and widespread characteristic of murine species. An absolute requirement for purified T responder cells was necessary in the autologous MLC, since unseparated lymphoid cell responder LN or spleen cells demonstrated marked proliferation when cultured alone in medium containing PEG. The proliferation of T cells to autologous non-T cells within the same unseparated lymphoid cell preparation appears to be responsible for this phenomenon. Ia antigens expressed by the stimulator cells are involved in the induction of T-cell response, since anti-Ia sera added directly to the cultures inhibited the autologous MLC, but did not affect other T-cell responses to alloantigens or mitogens. Despite the marked proliferation observed in the autologous MLC performed in the presence of PEG, there was no generation of cytotoxic effector cells. Thus, PEG does not appear to add, or alter determinants on stimulator cells to an extent that they are recognized as foreign by precursor cytotoxic T cells. Although the mechanism of enhancement of autologous MLC by PEG is not totally defined, it appears, at least functionally, to promote cellular interactions that occur normally between T cells, B cells, and macrophages. In this respect, PEG will be a powerful and useful probe to dissect the cellular interactions that take place in autologous responses.     

Influence of age on reactivity of 1-way mixed lymphocyte cultures in young chickens

A reproducible 1-way mixed lymphocyte culture (MLC) assay was used to study the ontogeny of MLC in N, P, RPRL-72 and RPRL-63 strains of chickens. The chicks were progeny of specific-pathogen-free and lymphoid leukosis virus-free parents and grown in common isolators. When cells were from responder and stimulator chickens of the same age, the RPRL-72 chickens cells responded by 8 wk, whereas cells from chickens of the other 3 strains did not respond significantly until after 14 wk of age. In MLC with 6- and 32-wk-old RPRL-72 and N birds, the age of the responder was not crucial. However, young or old N birds responded extremely well to old 72 stimulator cells, whereas young 72 cells stimulated no, or minimal, response. Thus the age of the stimulator cell is vary important in chicken MLC and appears to depend upon the responder chicken strain.     

Comparative study of the proliferative activity of human lymphocytes from different pairs of donors in a mixed culture in vitro

The proliferative response of human lymphocytes was studied in one-way and two-way mixed lymphocyte cultures (MLC). The maximal proliferation was shown to be attained in a two-way MLC containing unequal quantities of the cells from two paired donors. It was also demonstrated in a one-way MLC that the cells of one of the two paired donors are more effective responders. The most powerful proliferation in the MLC of these donors was observed in the cultures containing the excess of more effective cells. Thymosine increased the response of human lymphocytes in the two-way MLC. In vitro cell preincubation reduced the response in the cultures with a high proliferative response in the control. It has been thus demonstrated that lymphocytes from paired donors possess different functional activity in the MLC.     

Inhibition of stimulation in murine mixed lymphocyte cultures with an alloantiserum directed against a shared Ia determinant.

Pools of high titered alloantisera were raised by immunizing (B10.A/SgSn X A/WySn)F1 mice with C57BL/10Sn(B10) spleen cells. This serum (F1 anti-B10), when added to one-way mixed lymphocyte cultures (MLC), inhibited stimulation of B10.A splenic responders by both B10 and B10.D2/nSn irradiated, splenic stimulators. The B10 stimulation was suppressed approximately 85% whereas the mean suppression of B10.D2 stimulation was approximately 60%. In the ofrmer case, the serum contained antibodies reactive with multiple major histocompatibility complex determinants on the stimulator cells. In the latter case, the cytoxic reactivity of the serum was directed principally against an I region-associated determinant Ia.8) shared by B10 and B10.D2 and coded for by a gene(s) in the I-A subregion. The magnitude of the suppression of the response to B10.D2 cells (60%) was similar to the reduction in stimulation observed when the Ia.8 difference was eliminated genetically by using (B10 X B10.A)F1 responder cells against irradiated B10.D2 stimulators. Ihhibition of MLC by this antiserum was a function of reactivity with stimulator and not responder cells. Although some pools of F1 anti-B10 antiserum produced partial inhibition of the responder cell in a B10.D2 vs B10.Ax MLC combination, the results were inconsistent and not correlated with the anti-Ia.8 cytotoxicity titers. In addition, an F1 anti-B10 antiserum pool, which consistently failed to inhibit the responder cell, nevertheless inhibited both irradiated B10.D2 and (B10.A X B10.D2)F1 cells from stimulating B10.A responder cells. However, this same antiserum did not inhibit stimulation of B10.D2 responder cells by the (B10.A X B10.D2)F1 stimulators. Thus, the binding of antibodies to the non-stimulating antigens on the F1 stimulator cell did not interfere with the capacity of the appropriate stimulating antigens to cause stimulation. All of these results are consistent with the hypothesis that Ia allo-antigens are the major stimulating determinants of I region-associated MLC reactions.     

The mixed lymphocyte response of senescent mice: sensitivity to alloantigen and cell replication time.

The age-dependent alteration in the proliferative response of C57B1/6J lymph node cells to stimulation by H-2- and M-locus alloantigens was examined in one-way mixed lymphocyte cultures (MLC). Balb/c (H-2^d, Mls^b) and DBA (H-2^d, Mls^a) spleen cells served as stimulating cells differing from C57B1/6J (H-2^b, Mls^b) at the H-2 and H-2 plus Mls loci, respectively. The day of peak response and the ratio of responder to stimulator cells required for optimal stimulation were the same for all the age groups (3 to 29 months) tested, irrespective of the stimulator strain used. Results obtained in MLC under optimal conditions showed a maximal response to both Balb/c and DBA/2 stimulation at the age of 6 months, followed by a gradual decline in the response with age. In order to determine whether the decline with age in mixed lymphocyte reactivity can be attributed to a reduction in the proliferative capacity of the responding lymphocytes of aged mice, cell cycle analyses were performed. Auto-radiographic studies of MLC containing lymphocytes from CS7B1/6J mice aged 6 and 24 months showed no difference in generation time, S, G₂, G₁, and M phases of the cell cycle. In addition, lymphocytes of both age groups underwent two identical mitotic waves within the period of examination. Our results determine that the functional decline with age in proliferative activity in mixed lymphocyte cultures is attributable to a neither decrease in sensitivity to alloantigen nor to a decrease in generation time or the ability to undergo several mitotic divisions, and suggest that such a decline is caused by fewer cells capable of response in old mice.     

Allogeneic T-cytotoxic reactivity of senescent mice: affinity for target cells and determination of cell number

Experiments were performed to determine the cause(s) of the reduced T-cytotoxic-cell response observed in senescent mice. The cytotoxic cells studied developed in mixed lymphocyte cultures (MLC) of 6 × 10⁶ C57B1/6J (H-2^b) spleen cells from mice of various ages which were stimulated by doses of irradiated Balb/c (H-2^d) cells giving responder to stimulator ratios of 10:10 and 10:1. The cytotoxic response, as determined in a ⁵¹Cr-release assay against P815 (H-2^d) mastocytoma cells in culture, declines with age. This age-related decline is more pronounced with the lower dose of stimulator cells (10:1). The cytotoxic response developing in 10:10 and 10:1 MLC of spleen cells from young mice is comparable in magnitude, whereas the lower dose (10:1) is much less stimulatory in cultures of spleen cells from mice above 12 months of age. In order to better understand this age-dependent decline in cytotoxic response, the affinity of effector cells to their target and the percentage of cytotoxic cells which develop in the cultures of spleen cells from mice of various ages were determined. The affinity of cytotoxic cells developing in 10:10 MLC does not change with age. The affinity of cytotoxic cells developing in 10:1 MLC from young mice is significantly higher than the affinity of those developing in 10:10 MLC. This dose-dependent increase in affinity is not apparent in 20-month-old mice, which show equal affinity of cytotoxic cells in 10:10 and 10:1 MLC. The percentage of cytotoxic cells in the cultures was found to decrease with age. This decrease was more pronounced after 10:1 stimulation. Thus the decline with age in cytotoxic response can be attributed to a decrease in number of functional cytotoxic cells developing in MLC cultures, regardless of stimulator cell dose and a decrease in affinity for target cells at low stimulator cell doses.     

alpha-Fucose inhibits human mixed-lymphocyte culture reactions and subsequent suppressor cell generation

Carbohydrate moieties serve as important sites of interaction for many lymphocyte activities. The potential role of saccharides in the cellular interactions involved in mitogen-, antigen-, and alloantigen-induced proliferation was investigated. Eight different monosaccharides were tested for their inhibitory potential when added to uni- and bidirectional mixed-lymphocyte culture (MLC) reaction as well as to mitogen (Con A, PHA, PWM)-stimulated cultures. Only alpha-L-fucose blocked the MLC reaction in a dose-dependent fashion while having no effect on mitogen stimulation, although antigen-specific stimulation was also blocked by fucose. Similarly alpha-L-fucose specifically inhibited the MLC-induced generation of suppressor cells. Pretreatment of the MLC responder cells with fucose dehydrogenase abolished the MLC reaction while stimulator cell pretreatment had no effect, suggesting that the recognition site of the former contained alpha-L-fucose. The generation and the effector phase of Con A-induced suppressor cells was not affected by fucose, indicating that different receptors are involved in the latter. Apparent competitive inhibition by exogenous fucose of the cell-cell interaction required for the MLC reaction suggested that this monosaccharide is an essential constituent of allogeneic recognition sites.     

Antigen presentation by Hodgkin's disease cells

The L428 tumor cell line is a long-term tissue culture of Reed-Sternberg cells which was derived from the pleural effusion of a patient with Hodgkin's disease. The L428 cells express all known cell surface antigens, cytochemical staining, and cytologic features of freshly explanted Reed-Sternberg cells. In addition to the previously described HLA-DR cell surface antigens, the L428 cells are now demonstrated to express both DS and SB alloantigens. Thus, the L428 cells express all of the known subclasses of the human immune response genes that are located in the major histocompatibility complex. Furthermore, the L428 cells are capable of presenting soluble antigen to T cells in a genetically restricted fashion. T cell lines were established from normal donors previously immunized with tetanus toxoid. The T cells utilized were incapable of tetanus toxoid-induced proliferation unless antigen-presenting cells were added to the cultures. However, T cells from the two normal donors, which like the L428 cells expressed HLA-DR 5, demonstrated significant proliferative responses when cultured with tetanus toxoid and L428 cells. No proliferative response was observed when the L428 cells were used as antigen-presenting cells for a DR (4,-), DR (2,-) or DR (1,7) T cell line. The tetanus toxoid dose-response curve was similar regardless of whether autologous mononuclear leukocytes or L428 cells were used as antigen-presenting cells. The T cell proliferation induced by soluble antigen was also blocked by anti-HLA-DR antibody. Thus, functionally, Hodgkin's disease may be classified as a tumor of antigen-presenting cells.     

Human newborn autologous mixed lymphocyte response: frequency and phenotype of responders and xenoantigen specificity

The response of human newborn lymphocytes in autologous mixed lymphocyte culture was examined for specificity (by restimulation), responder cell phenotype, and responder cell frequency. When the newborn T cells were separated from non-T cells by rosetting with sheep erythrocytes (E) in fetal calf serum (FCS), approximately 1:20,000 T cells proliferated. These responders had specificity for E + FCS, were T4+, and were self-restricted. Significant numbers of responder T cells were not found when newborn T and non-T cells were separated by nylon wool. Responses in parallel autologous cultures of adult T cells showed that 1) adults had a higher frequency than newborns of E + FCS specific responders, 2) evidence for self specificity was lacking in restimulated cultures, and 3) occasional responses to antigen on the surface of monocytes could not be excluded.     

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.     

Regulation of the production of immune interferon and cytotoxic T lymphocytes by interleukin 2

The activation of alloantigen-specific cytotoxic T lymphocyte precursors is dependent upon the presence of both macrophages and helper T cells or regulatory molecules derived from these facilitative cells. Three biochemically distinct helper factors have been identified: interleukin 1 (macrophage-derived), Interleukin 2 (T cell derived), and immune interferon. All 3 factors are found in supernatants of mixed lymphocyte cultures (MLC), however, the removal of macrophages from these cultures completely ablates the production of these factors as well as the induction of cytotoxic T lymphocytes (CTL). The addition of IL 2 to these macrophage-depleted MLC restores the ability of responder T cells to: 1) bypass the requirement for macrophage soluble function, 2) produce immune interferon, and 3) generate CTL. The kinetics and dose response of immune interferon production in response to IL 2 correlates with the generation of CTL. The production of immune interferon as well as the generation of CTL requires T cells, alloantigen, and IL2. Furthermore, the induction of CTL by IL2 was neutralized by the addition of anti-immune interferon. These data suggest that: 1) the regulation of immune interferon production is based on a T to T cell interaction mediated by IL 2, and 2) immune interferon production may be required for IL 2 induction of CTL. These findings are consistent with the hypothesis that the induction of CTL involves a linear cell-factor interaction in which IL 1 (macrophage-derived) stimulates T cells to produce IL 2, which in turn stimulates other T cells to produce immune interferon and become cytotoxic.     

Genetics of cell-mediated lympholysis in man.

Cell-mediated lympholysis (CML) was studied in a family containing two siblings in who genetic recombinaiton had occurred in the HLA comples. In one sibling, recombination occurred between the HLA-A locus and the HLA-B locus. In the second sibling recombination occurred between the HLA-B locus and the HLA-D locus. Strong CML activity was generated in mixed lymphocyte cultures (MLC) when stimulator and responder cells differed in HLA-A, B, and D antigens. MLC involving HLA-D differences alone did not generate CML. Weak, but definite CML activity was generated during MLC with cells differing at HLA-A and HLA-B but sharing HLA-D. HLA-B antigens were good targets for lysis in all combinations studied. HLA-A antigens were poor targets in some but not in all combinations. However, combinations where HLA-A antigens seemed to be good targets could have involved HLA-B differences due to polymorphism of HLA-B7 antigens each inherited from a different parent. HLA-D antigens did not serve as targets for lysis. In three cell experiments, excellent CML activity was generated when responder cells were stimulated by HLA-D antigens and by HLA-A and B antigens present on separate stimulator cells.     

Effect of anti-beta2-microglobulin on antigen and allogeneic lymphocyte-induced proliferation of human lymphocytes.

The effect of anti-beta2-microglobulin (beta2m) on the mixed lymphocyte reaction (MLR), and an antigen-induced proliferative response was studied. Anti-beta2m IgG and Fab' fragments completely inhibited the MLR. Preincubation of stimulator or responder cells with anti-beta2m suggested that the major effect of anti-beta2m may be on the responder cell population. A clear-cut effect on responder cells was demonstrated by showing that anti-beta2m completely inhibited a MLR in which the stimulator population was a beta2m negative lymphoblastoid cell line. Anti-beta2m also inhibited PPD-induced proliferation of sensitized lymphocytes. The kinetics of this inhibition indicated that anti-beta2m added within the first 18 hr of stimulation was effective in inhibiting the proliferative response. These data are discussed in light of the hypothesis that beta2m may be a subunit of an antigen receptor on T cells.     

Human allospecific TLCs generated against HLA antigens associated with DR1 through DRw8

To study the fine specificity of the HLA-D region, a panel of human T-lymphocyte clones (TLCs) was generated against alloantigens associated with HLA-DR1 through DRw8. HLA-DR-homozygous peripheral blood lymphocytes (PBLs) were stimulated with DR-heterozygous PBLs in primary mixed lymphocyte cultures for 4 days. Blasts were cloned by limiting dilution at 0.3 cells/well in the presence of 20% T-cell growth factor and irradiated stimulator cells. Viable clones were subsequently tested in proliferation assays against the original stimulator and a limited panel of stimulators bearing relevant DR specificities. Initial primings produced approximately 800 clones; some recognized DR-associated antigens, 70 recognized only their original stimulator, and approximately 50% were nonresponsive. Analysis on extended stimulator panels revealed alloantigenic complexity within similar DR-associated antigens as recognized by TLCs. The data are consistent with evidence that extreme heterogeneity exists within the HLA-D region.Abbreviations used in this paper cpm counts per minute - DNV double normalized value - EBV Epstein-Barr virus - FCS fetal calf serum - HLA human major histocompatibility complex - HTC homozygous typing cell - LCL lymphoblastoid cell line - MHC major histocompatibility complex - MLC mixed lymphocyte culture - PLT primed lymphocyte typing - TCGF T-cell growth factor - TLC T-lymphocyte clone - T-max maximized T-test analysis     

The role of IL 1 in the antigen-specific activation of murine class II-restricted T lymphocyte clones

The role of IL 1 in the antigen-specific activation of class II-restricted T lymphocytes was examined by using a model system consisting of cloned WEHI 5 B lymphoma accessory cells and class II-restricted, soluble antigen- or alloantigen-reactive T cell clones. The addition of exogenous recombinant IL 1 to the T cell cultures resulted in a significant enhancement of the antigen-specific T cell proliferation response, but at best, only small increases in IL 2 release. Goat IgG anti-IL 1 antibodies were added to the T cell cultures to assess their effect on T cell activation. The IL 1 enhancement of the T cell proliferation response was inhibited by the anti-IL 1 antibodies in a dose-dependent manner. In contrast, only modest levels (10 to 25%) of proliferation inhibition were observed in T cell cultures containing either WEHI 5 or splenocyte accessory cells but no exogenous IL 1. When the anti-IL 1 antibodies were added to primary mixed lymphocyte cultures stimulated by WEHI 5 cells in the absence of exogenous IL 1, no significant inhibition of proliferation was observed. A small but statistically significant proliferation inhibition was observed when anti-IL 1 antibodies were added to mixed lymphocyte reaction cultures stimulated by splenocytes. Two-color cytofluorometric analysis of the effects of IL 1 on antigen-activated T cell clones demonstrated that under suboptimal stimulation conditions, IL 1 stimulated a small but significant increase in the number of T cells bearing IL 2 receptors. In the presence of optimal numbers of WEHI 5 accessory cells, IL 1 enhanced T cell proliferation in the absence of a detectable increase in the number of T cells bearing IL 2 receptors, the number of IL 2 receptors per T cell, or the levels of IL 2 released. Finally, exogenous IL 1 can be added as late as 18 to 24 hr after culture initiation without significantly reducing its ability to enhance the T cell proliferation response. These data indicate that IL 1 has pleiotropic effects on murine T lymphocytes and can function to enhance T cell activation at multiple points during the activation sequence.     

Conditions for the generation of autoreactive human T cell clones: requirement for lymphokines other than interleukin 2 alone

In an attempt to determine whether factors other than interleukin (IL) 2 alone were necessary for the generation of autoreactive suppressive T cell clones, lymphocytes from HLA-Dw-matched allogeneic mixed leukocyte cultures (MLC) were propagated and cloned in purified IL 2, partially purified IL 2, conditioned medium (CM) from stimulated peripheral blood mononuclear cells (PBMC), or with purified IL 2 plus IL 3, IL 4, or interferon-gamma (IFN-gamma). Cloning efficiencies were very low in all cases (less than 10%) and of 48 clones tested only 6 were capable of autocrine proliferation after stimulation with autologous PBMC. Four of these clones were derived from populations expanded and cloned in CM, one from cultures with partially purified IL 2, and one with purified IL 2. All were CD4+ alpha/beta-T cell receptor. Their stimulation was blocked by anti-DR and broadly reactive MHC class II-specific monoclonal antibodies (mAb) but not by anti-DQ or anti-DP mAb. One clone was blocked exclusively by broad mAb but not by anti-DR, -DQ, or -DP mAb, and this was the only clone to suppress lymphocyte proliferation in allogeneic MLC, a property previously described for autoreactive clones derived under similar conditions detecting potentially novel lymphocyte activating determinants designated "DY." These results therefore suggest that DY-specific autoreactive suppressive clones are produced under these conditions only at a low frequency and that an unidentified factor other than IL 2, IL 3, IL 4, or IFN-gamma is involved in their generation.     

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.     

Failure of OKT3 monoclonal antibody to induce lymphocyte mitogenesis: a familial defect in monocyte helper function

Monoclonal antibodies to the T3 molecule on human T cells have mitogenic activity. Although anti-T3 antibodies of the IgG1 subclass (e.g., UCHT1) induce mitogenesis in lymphocyte cultures from only 60 to 70% of normal donors, antibodies of Ig2a subclass (e.g., OKT3) invariably have been found to be mitogenic in all subjects tested up to the present. This paper describes a family (a mother, six daughters, and one son) in which five members failed to respond mitogenically to OKT3 although the proportion of OKT3-reactive cells in their peripheral blood was normal. Mitogenic responses to PHA, Con A, and PWM were normal. Five members comprising four OKT3 nonresponders were also unresponsive to UCHT1. Unresponsiveness to OKT3 and unresponsiveness to UCHT1 were not absolutely linked to each other, nor were they linked to an HLA haplotype inherited from the mother. Upon stimulation by OKT3, lymphocyte preparations from OKT3-nonresponders failed to produce interleukin 2 (IL 2) and to display IL 2 receptors. OKT3 unresponsiveness was due to defective monocyte help: thus, responsiveness to OKT3 of T cells from an OKT3-nonresponder was restored by the addition of monocytes from an HLA-identical sister who had a normal response to OKT3. Inversely, T cells from the OKT3 responder had no reactivity to OKT3 when cultured in the presence of monocytes from an HLA-identical, OKT3-nonresponsive sister. Unresponsiveness to OKT3 could not be overcome by the addition of phorbol myristate acetate to the cultures. These data on a familial, non-HLA-linked deficiency of monocytes to exert their auxiliary function provide better insight into the mechanism of anti-T3-induced T cell activation.