In vitro T cell-mediated killing of Pseudomonas aeruginosa. IV. Nonresponsiveness in polysaccharide-immunized BALB/c mice is attributable to vinblastine-sensitive suppressor T cells

We reported previously that BALB/c mice immunized with a polysaccharide (PS) antigen isolated from immunotype 1 Pseudomonas aeruginosa and vinblastine sulfate develop T cell-mediated protective immunity, despite their failure to produce specific antibody. In vitro, Lyt-1-,2+, I-J+ T cells from vinblastine- and PS-immunized mice kill P. aeruginosa by secretion of a bactericidal lymphokine. BALB/c mice immunized with PS alone generate neither protective antibodies nor a protective T cell response. The current studies indicate that T cells from mice immunized with PS alone significantly suppress the bactericidal activity of T cells from mice immunized with vinblastine and PS. The suppressor T cells are of the same Lyt-1-,2+, I-J+ phenotype as the bactericidal T cells. Suppression is mediated by a soluble product of these suppressor T cells which both inhibits T cell proliferation and interferes with the production or release of the bactericidal lymphokine. Cyclophosphamide, used in other systems to remove suppressor T cells, fails to enhance bacterial killing and does not inhibit suppressor cell activity. These studies indicate that immunization with PS elicits responses in two functionally distinct subgroups of Lyt-1-,2+, I-J+ T cells, and that these cells are distinguishable by their sensitivity to vinblastine sulfate.     

In vitro T cell-mediated killing of Pseudomonas aeruginosa. III. The role of suppressor T cells in nonresponder mice

T lymphocytes from immune BALB/c mice can adoptively transfer protection against infection with the extracellular Gram-negative bacterium Pseudomonas aeruginosa to nonimmune recipients, and in vitro, immune T cells are able to kill these bacteria. Earlier studies indicated that this killing is mediated by a bactericidal lymphokine. The current studies demonstrate that T cells from immunized CB.20 mice, a strain congenic with BALB/c, fail to kill Pseudomonas aeruginosa in vitro. This nonresponsiveness is attributable to the activity of suppressor T cells of the Lyt-1-, 2,3+, I-J+ phenotype. CB.20 mice are known to differ from BALB/c mice only at a single locus, which includes the Igh-1 allotype CH genes. These results suggest a critical role for this locus or closely linked genes in the control of T cell killing of this extracellular bacterium.     

T cells recognizing polysaccharide-specific B cells function as contrasuppressor cells in the generation of T cell immunity to Pseudomonas aeruginosa

The cellular interactions involved in the development of T cell-mediated immunity to Pseudomonas aeruginosa have been examined. T cell immunity can be generated by immunizing mice with 10 micrograms of P. aeruginosa polysaccharide (PS) plus the antimitotic agent vinblastine sulfate. Vinblastine is required to inactivate a population of Ts cells generated by immunization with 10 micrograms of PS alone. Immunization with either live bacteria or with higher dose (50 micrograms) of PS without vinblastine also generates T cell immunity; these protocols activate a population of Lyt-1+, 2-, I-J+ T cells which, like vinblastine, counteract the effect of Ts cells. Immunization with 10 micrograms PS alone fails to activate this T cell subpopulation. When administered at the time of immunization, this subpopulation can render the tolerogenic 10-micrograms immunization protocols immunogenic. Like previously described contrasuppressor T cells, this T cell subpopulation exhibits an affinity for the lectin Vicia villosa. We have determined, however, that the T cells that act as contrasuppressor cells in this system are directly activated by PS-immune B cells and not by PS Ag. Furthermore, their activity can be removed by adsorption to PS-specific B cell hybridomas. Our studies indicate an important role for B cells in the development of T cell immunity to P. aeruginosa and suggest that a complex idiotype network controls the development of this response.     

Induction in mice of cell-mediated immunity to Pseudomonas aeruginosa by high molecular weight polysaccharide and vinblastine

The effect of the cytotoxic drug vinblastine on the development of immunity to high m.w. polysaccharide (PS) isolated from culture supernates of Pseudomonas aeruginosa was investigated. One microgram of PS, a normally nonimmunogenic, nonprotective dose, plus 75 micrograms of vinblastine were administered to BALB/c mice, and afforded protection to live organism challenge with the homologous strain. The kinetics and serotype specificity of the immune response indicated an active immunization had occurred. Analyses of serum antibody levels of mice given the PS-drug regimen in a sensitive, radioactive antigen-binding assay (RABA) failed to show development of antibody to the immunizing PS. Immunity could be passively transferred with spleen cells but not by serum from PS-drug-immunized animals, and the effector cell was removed by antisera to the Thy-1.2 antigen. Nu/nu mice were also protected against challenge after immunization with PS and vinblastine, but this protection was observed in association with the development of serum antibody to PS in these mice, as measured in the RABA. Protective immunity could not be elicited in the BALB/c mice by PS plus cyclophosphamide. These data suggest that under certain conditions, PS antigens can elicit T cell-dependent immune phenomena, and this T cell-dependent immunity can protect mice from live organism challenge against an extracellular bacterial pathogen.     

Investigations into the nature of Igh-V region-restricted T cell interactions by using antibodies to antigens on methylcholanthrene-induced sarcomas. I. Analysis of an Igh-V-restricted suppressor-inducer factor

We have previously demonstrated the relationship between antigens on BALB/c methylcholanthrene (MC)-induced fibrosarcomas and T cell regulatory molecules by using a variety of antisera raised to these sarcomas in BALB/c and BALB/c X C57BL/6 (CB6F1) mice. One such pool of antiserum, a CB6F1 anti-CMS 4 (Pool XIV) serum, was used to investigate the nature of the T cell regulatory structures recognized by these antibodies. Pool XIV antiserum was capable of blocking the induction of feedback suppression by Ly-1 TsiF, an SRBC-specific suppressor T cell factor secreted by Ly-1+, 2- I-J+ T cells. Ly-1 TsiF induces suppression by interacting with an Ly-1+,2+ I-J+ T cell target. Successful interaction of Ly-1 TsiF with its target cell requires genetic homology between inducer and target cells at the variable region of the immunoglobulin heavy chain gene complex (Igh-V). The addition of Pool XIV antiserum to primary in vitro anti-SRBC cultures resulted in blocking the ability of Ly-1 TsiF from Igha (BALB/c) and Ighj (CBA/J) mice to induce suppression on syngeneic cells, whereas suppression induced by Ly-1 TsiF in Ighb (B6), Ighc (DBA/2), Ighd (A/J), and Ighe (AKR) mice are unaffected by addition of the Pool XIV antiserum. The ability of Pool XIV antiserum to block Ly-1 TsiF activity is linked to the Igh region, because Pool XIV antiserum can block Ly-1 TsiF from BALB/c (H-2d, Igha) and the Igh congenic B.C9 (H-2b, Igha) while not affecting Ly-1 TsiF activity on B6 (H-2b, Ighb) or its Igh congenic C.B20 (H-2d, Ighb). In CB6F1 animals, Pool XIV antiserum could block the ability of CB6F1 Ly-1 TsiF to suppress BALB/c spleen cells but not B6 spleen cells. Conversely, Pool XIV antiserum could block the ability of BALB/c Ly-1 TsiF to suppress CB6F1 spleen cells, whereas B6 Ly-1 TsiF showed normal suppressive activity in the presence of Pool XIV antiserum. In contrast, Pool XIV was capable of blocking the ability of Ly-1 TsiF from BALB/c into CB6F1 bone marrow chimeras (BMC) to suppress both BALB/c and B6 mice, whereas the activity of Ly-1 TsiF from B6 into CB6F1 BMC on BALB/c or B6 spleen cells was unaffected by the addition of Pool XIV antiserum. We then investigated the molecular nature of the molecule recognized by Pool XIV antiserum on the Ly-1 TsiF.(ABSTRACT TRUNCATED AT 400 WORDS)     

Suppressor T cells regulating the cell-mediated immune response to Pseudomonas aeruginosa can be generated by immunization with anti-bacterial T cells

We previously demonstrated that immunization with low (10 micrograms) doses of high m.w. polysaccharide from the gram-negative bacterium Pseudomonas aeruginosa generates T cells that suppress the ability of antibacterial T cells (Tab) to protect against bacterial infection. The current studies indicate that Ts cells with properties identical to those elicited by low dose polysaccharide immunization can be generated by immunization with Tab. Tab-elicited Ts cells can abrogate in vivo induction and in vitro and in vivo expression of antibacterial T cell activity. Tab-elicited Ts are Ag-specific and H-2 restricted in their suppressor activity. Non-immune T cells fail to elicit suppressor activity. These studies provide additional evidence that the protective T cell response to P. aeruginosa is controlled by a network of T cells that are probably recognizing idiotypic determinants on P. aeruginosa-immune T and B cells.     

Inhibition of murine suppressor cell function by progesterone

The effects of progesterone on murine suppressor cell function generated in allogeneic MLCs were investigated. BALB/c splenic lymphocytes stimulated in vitro with C3H/He cells significantly suppressed the proliferative response of BALB/c lymphocytes in a secondary MLC. This suppression was highly specific for the sensitizing alloantigens since the suppressor cells had no effect on the proliferative response of BALB/c lymphocytes to third-party alloantigens. In addition, BALB/c lymphocytes stimulated with syngeneic cells were observed to nonspecifically suppress the MLC response to a lesser extent. One to 10 micrograms/ml progesterone added at initiation to suppressor cell generating cultures diminished the ability of both alloantigen specific and nonspecific suppressor cell populations to suppress the proliferative response of homologous lymphocytes to alloantigens. Experiments with pyrilamine, an antihistamine, which blocks cytotoxic T lymphocyte (CTL) generation, suggests that progesterone has a direct inhibitory effect on suppressor cell function independent of its ability to block CTL induction. The effects of progesterone on suppressor cells were not due to shifts in peak response time in MLC or induction of radiosensitive cells in progesterone-treated cultures. Estradiol at doses between 5 and 10 micrograms/ml, and cortisol at dose of 1 microgram/ml, also significantly inhibited suppressor cell function. These results suggest that the steroid hormone milieu within the placenta may effect the activity of allogeneic or nonspecific suppressor cell activity.     

Whole body irradiation induces IFN-gamma production in BALB/c mice by preventing the appearance of a V alpha 14(+)NK T downregulatory population

Lymph node cells from TNCB-immune BALB/c mice fail to produce IFN-gamma when exposed to antigen in vitro. Conversely, lymph node cells of irradiated (550 rads) BALB/c mice produce IFN-gamma. Transfer experiments show that normal BALB/c mice contain cells which suppress IFN-gamma production. These downregulatory cells are CD4(+)alpha beta(+)and rearrange the invariant V alpha 14-J alpha 281 T cell receptor alpha chain, thus belonging to the NK T cell subset. Downregulatory cells probably act by producing IL-4 as their effect is blocked by mAb to IL-4.     

Cutaneous leishmaniasis in anti-IgM-treated mice: enhanced resistance due to functional depletion of a B cell-dependent T cell involved in the suppressor pathway

The contribution of B cells and antibodies to either the resistance or susceptibility to cutaneous leishmaniasis has been investigated in mouse strains rendered B cell-deficient by treatment with anti-mouse IgM antisera from birth (mu-suppressed). These studies confirm that immunity to cutaneous disease in a normally resistant mouse strain (C3H/HeJ) is independent of antibody, but that B cells and/or antibodies are required for the evolution of suppressed DTH and the consequent disease susceptibility of BALB/c mice. Anti-IgM-treated BALB/c mice, which lacked detectable anti-leishmanial antibodies during the course of infection, displayed a sustained DTH response to leishmanial antigen and were able to control their cutaneous lesions. The enhanced resistance of mu-suppressed mice could be completely abrogated by transfer of suppressor T cells from infected control animals into mu-suppressed mice before their infection. Thus the suppressor T cells, which are generated during leishmanial infection in BALB/c mice, can effect suppression in the absence of antibody. Evidence that B cells or antibodies are required for the generation of suppressor T cells was demonstrated by using BALB/c mice in which suppressor T cells fail to be generated during infection as a result of prior sublethal irradiation. Splenic T cells from normal mice could overcome the resistance conferred by sublethal irradiation, whereas splenic T cells from mu-suppressed mice could not. Thus the enhanced resistance of mu-suppressed BALB/c mice appears to be a consequence of their lack of functional expression of a B cell-dependent T cell critical to the suppressor pathway.     

Suppressor cells in contact sensitivity. Effect on T cells helping antibody production to picryl chloride.

T cells from mice injected with picryl sulfonic acid have previously been shown to suppress the effector and possibly other phases of contact hypersensitivity reactions to picryl chloride. In this report we examine their effect on T cells helping the early direct anti-TNP plaque-forming cell response of mice painted with picryl chloride. They did not directly inhibit the activity of the helper cells but did inhibit the ability of mice to generate helper cells after skin painting. The suppressor cells were T cells as tested by passage through nylon wool columns and sensitivity to anti-θ serum. Viable syngeneic cells were required for suppression and their effect was specific. The suppressor cells could not be generated in adult thymectomized mice but could be produced in mice treated with high doses (200 mg/kg) of cyclophosphamide. These properties are distinct from those of suppressor T cells produced following immunization with picryl chloride but are the same as those of other suppressor cells induced by PSA which inhibit contact hypersensitivity.     

Influence of 2'-deoxyguanosine upon the development of DTH effector T cells and suppressor T cells in vivo

Subcutaneous (s.c.) immunization of mice with allogeneic spleen cells can induce delayed-type hypersensitivity (DTH) to both major and minor histocompatibility antigens. Intravenous immunization with allogeneic spleen cells, however, induces a poor state of DTH. Furthermore, i.v. immunization with allogeneic spleen cells, especially if they have been irradiated, induces suppressor T lymphocytes. These suppressor T cells are capable of suppressing the host-vs-graft (HvG) DTH reactivity that normally arises after s.c. immunization. Moreover, they can suppress the development of anti-host DTH effector T cells during graft-vs-host (GvH) reactions. These models for HvG and GvH DTH reactivity were used to study the influence of 2'-deoxyguanosine (dGuo) and guanosine (Guo) on the generation of DTH-reactive T cells and suppressor T cells in vivo. It was found that daily i.p. administration of 0.01 mg dGuo to mice immunized i.v. partially prevented the generation of suppressor T cell activity, whereas daily administration of 0.1 or 1 mg dGuo resulted in a complete abolition. Administration of dGuo has no effect on the anti-host DTH reactivity by spleen cells from nonsuppressed donors except for when a daily dose of 10 mg is administered. This dose proved to be toxic for precursors of DTH effector T cells. Daily i.p. injection of Guo had no effect on the generation of suppressor T cells nor on the generation of DTH effector T cells. The effect of dGuo was found to be due to a direct effect on suppressor T cells and not to the induction of contrasuppressor cells. These data suggest a differential sensitivity of DTH-reactive T cells and suppressor T cells for dGuo. Because suppressor T cells and DTH-reactive T cells require proliferation for expressing maximal functional activity in the systems used, both cell types probably have different enzyme activities involved in the purine metabolism and similar deoxycytidine kinase activities, but have different nucleotidase (5'NT) activities, those in suppressor T cells being the lowest. If so, suppressor T cells will accumulate deoxyguanosine triphosphate, which causes an inhibition of the ribonucleotide reductase activity and thus of the DNA synthesis by these cells.     

Prophylactic immunization against experimental leishmaniasis. VI. Comparison of protective and disease-promoting T cells

In previous studies, we reported that mice immunized i.v. with lethally irradiated Leishmania major promastigotes developed substantial resistance to a subsequent L. major infection. However, such protection could be totally suppressed by prior s.c. injection with the same antigens. Both the protective immunity and the inhibition of its induction could be adoptively transferred with specific Lyt-2- T cells. Here, we present evidence showing that protection and disease promotion resulting from i.v. or s.c. immunization, respectively, are mediated by functionally distinct subsets of T cells. In a series of titration experiments, it was found that freshly isolated T cells derived from prophylactically i.v. immunized BALB/c mice were either protective (greater than 10(7) cells/recipient) or ineffective (less than 10(7) cells/recipient). No exacerbation of disease was observed at any dose. Conversely, T cells from mice immunized s.c. either accelerated disease development and inhibited protective immunization (greater than 10(7) cells/recipient) or had no effect (less than 10(7) cells/recipient). No protection was observed at any dose tested. In mixed transfer experiments, increasing numbers of T cells from s.c. immunized donors progressively inhibited the protective effect of T cells from i.v. immunized donors. Supernatant of T cell cultures from protectively immunized donors contained substantial macrophage-activating factor whereas such activity was not detectable in the supernatant of T cell culture from s.c. immunized donors. Analysis by flow cytometry showed that the spleen and lymph nodes of normal, i.v., or s.c. immunized BALB/c mice contained similar ratios of L3T4+ cells and Lyt-2+ cells.     

Prophylactic immunization against experimental leishmaniasis. III. Protection against fatal Leishmania tropica infection induced by irradiated promastigotes involves Lyt-1+2- T cells that do not mediate cutaneous DTH

Protective immunity against fatal L. tropica infection in genetically vulnerable BALB/c mice can be induced by prophylactic immunization with irradiated promastigotes even when heat-killed. Such immunity is adoptively transferable transiently into intact or durably into sub-lethally irradiated (200 or 550 rad) syngeneic recipients by splenic T but not B cells. The effector T cells are of the Lyt-1+2- phenotype, devoid of demonstrable cytotoxic activity. The immune splenic T cell population expresses specific helper activity for antibody synthesis. A causal role for helper T cells in this capacity, however, seems unlikely, because it was shown in the accompanying paper that antibody does not determine the protective immunity against L. tropica. The immunized donors show no detectable cutaneous DTH or its early memory recall in response to live or killed promastigotes or a soluble L. tropica antigen preparation. Spleen, lymph node, and peritoneal exudate cells from protectively immunized donors similarly fail to transfer DTH locally or systemically. These cells also lack demonstrable suppressive activity against the expression or induction of DTH to L. tropica. Thus, protection against L. tropica induced by prophylactic i.v. immunization with irradiated promastigotes appears to be conferred by Lyt-1+2- T cells that are distinguishable from T cells mediating either both DTH and T help, or cytotoxicity.     

The role of antigen-presenting B cells in T cell priming in vivo. Studies of B cell-deficient mice

Mice rendered B cell deficient by treatment with rabbit anti-mouse IgM (anti-mu) antibodies from birth fail to respond when primed with soluble protein antigens in CFA, as measured by T cell proliferation when challenged with antigen in vitro. The role of B cells in T cell priming in vivo was examined by adoptively transferring hapten-specific B cells into anti-mu mice, followed by immunization with haptenated Ag in CFA. The T cell proliferative response to OVA of anti-mu BALB/c mice was partially restored by the administration of TNP or FITC-specific B cells and immunization with TNP-OVA or FITC-OVA, respectively. This reconstitution was Ag-specific, inasmuch as hapten-binding B cells restored the T cell responses to OVA in mice immunized with the same hapten coupled to OVA. The mechanism of B cell reconstitution of T cell priming in anti-mu mice was addressed using parental to F1 B cell transfers. The Ia restriction pattern of the activated T cells from these mice indicated that both direct presentation of Ag by transferred B cells and antibody-mediated enhancement of Ag presentation by non-B, host Ag-presenting cells occurred. Thus, Ag-specific B lymphocytes play a critical role in priming of T cells in vivo.     

Detection of the dominant expression of the TEPC-15 idiotypic determinant(s) on phosphorylcholine-specific suppressor T lymphocytes in vitro

Phosphorylcholine-(PC) specific suppressor T lymphocytes, induced by immunization with PC-coupled syngeneic spleen cells and capable of suppressing antibody production in an in vitro system, were successfully obtained by removal of a PC-nonspecific, i.e., diazo-phenylstructure-directed, suppressor cell population using an immunoadsorbent column coupling an unrelated hapten with a diazo phenyl structure such as azobenzene arsonate (ABA). Column-purified PC-specific suppressor T cell activity was completely abrogated by treatment of the cells with anti-TEPC-15 (T-15) anti-idiotypic antibody and complement, or by the continuous presence of that antibody in the culture, whereas nonpurified suppressor cell activity was resistant to such treatment. Thus, the column-purified PC-specific suppressor T lymphocytes in BALB/c mice have a very homogeneous T-15 idiotypic determinant(s) on their functional receptors for antigen similar to those present on PC-specific antibody and/or B lymphocytes. Because of these results, we envision the growing importance of analysis of the fine specificity of the idiotype repertoire of T lymphocytes after purification of a hapten-specific population.     

Induction of T15-specific suppressor T cells in mice with the CBA/N defect by neonatal injection with anti-T15 idiotype antibody

Mice with the CBA/N defect (xid) are unresponsive to phosphorylcholine (PC), To determine whether idiotype-specific suppressor T cells can also be generated in these defective mice, defective (CBA/N X BALB/c)F1 male and nondefective (CBA/N X BALB/c)F1 female or (BALB/c X CBA/N)F1 male mice were neonatally injected with antibodies specific for the major idiotype of anti-PC antibody, i.e., anti-TEPC-15 idiotype (T15id) antibody. Suppressor cell activity was examined by co-culturing spleen cells from neonatally treated F1 mice with spleen cells of normal nondefective F1 mice in the presence of antigen. Spleen cells from defective (CBA/NM X BALB/c)F1 mice treated with anti-T15id antibody demonstrated a level of suppressor activity (greater than 83% suppression) comparable to that of similarly treated nondefective F1 mice. This suppression was specific for the T15id of anti-PC response, and a Lyt-1-2+-bearing T cell population appeared to be responsible for the active suppression. These suppressor T cells recognized T15 but not PC, based on a functional absorption test. These results indicate that the CBA/N defects, including the deficiency in the anti-PC response by B lymphocytes and a possible T cell defect, do not influence the generation of T15id-specific suppressor T cells by neonatal injection with anti-T15id antibody.     

Immunity to sporozoite-induced malaria infeciton in mice. I. The effect of immunization of T and B cell-deficient mice.

The cellular basis of immunity to sporozoites was investigated by examing the effect of immunization of T and B cell-deficient C57BL/6N X BALB/c AnN F1 (BLCF1) mice compared to immunocompetent controls. Immunization of T cell-deficient (ATX-BM-ATS) BLCF1 mice with x-irradiated sporozoites did not result in the generation of protective immunity. The same immunization protocols protected all immunocompetent controls. In contrast, B cell-deficient (micron-suppressed) BLCF1 mice were protected by immunization in the majority of cases. The absence of detectable serum circumsporozoite precipitins or sporozoite neutralizing activity in the micron-suppressed mice that resisted a sporozoite challenge suggests a minor role for these humoral factors in protection. These data demonstrate a preeminent role for T cells in the induction of protective immunity in BLCF 1 mice against a P. berghei sporozoite infection.     

A schistosome-expressed immunomodulatory glycoconjugate expands peritoneal Gr1(+) macrophages that suppress naive CD4(+) T cell proliferation via an IFN-gamma and nitric oxide-dependent mechanism

Lacto-N-fucopentaose III (LNFPIII) is found in human milk and on the Th2 driving helminth parasite Schistosoma mansoni. This pentasaccharide drives Th2-type responses in vivo and in vitro when conjugated to a carrier. In an attempt to further understand early events in Th1 to Th2 switching, we examined phenotypic and functional changes in peritoneal cell populations in BALB/c and SCID mice following LNFPIII-dextran injection. We found that i.p. injection with LNFPIII-dextran resulted in rapid (<20 h) expansion of the Gr1(+) subpopulation of F4/80(+)/CD11b(+) peritoneal cells, comprising up to 75% of F4/80(+)/CD11b(+) peritoneal cells compared with 18% in uninjected or dextran-injected mice. Functionally, these cells suppressed anti-CD3- and anti-CD28-induced proliferation of naive CD4(+) T cells. LNFPIII-dextran also expanded functional Gr1(+) suppressor macrophages in SCID mice, demonstrating that expansion and function of suppressor cells did not require T cells. Suppression in both BALB/c and SCID mice was NO and IFN-gamma dependent, as addition of inhibitors of inducible NO synthase (N(G)-monomethyl-L-arginine), as well as anti-IFN-gamma Abs, restored the ability of CD4(+) T cells to proliferate in vitro. Depletion of the F4/80(+) subset of Gr1(+) cells eliminated the suppressive activity of peritoneal exudate cells showing that these cells were macrophages. Thus, LNFPIII-dextran rapidly expands the Gr1(+) suppressor macrophage population in the peritoneal cavities of otherwise naive mice. These Gr1(+) cells suppress proliferation of naive CD4(+) T cells in an NO-dependent mechanism, and may play a regulatory role in the switching of Th1- to Th2-type responses.     

Administration of F(ab')2 fragments of monoclonal antibody to L3T4 inhibits humoral immunity in mice without depleting L3T4+ cells

Treatment of mice with monoclonal antibody (MAb) to L3T4 blocks the humoral immune response to antigens administered when L3T4+ cells are depleted. To determine whether depletion of target cells is required to suppress immunity, we examined the effect of treatment with F(ab')2 fragments of anti-L3T4 on the response of BALB/c mice to immunization with bovine serum albumin (BSA) in complete Freund's adjuvant. Treatment with F(ab')2 fragments of anti-L3T4 every 2 days (1 mg i.p.) beginning at the time of immunization significantly inhibited production of anti-BSA antibodies without depleting target cells. A single injection of anti-L3T4 fragments at the time of immunization also significantly inhibited production of anti-BSA antibodies, but was not as effective as repeated administration of the MAb fragments (75% inhibition compared with 98% inhibition; p less than 0.05). Moreover, one injection of anti-L3T4 fragments stimulated a host immune response to the rat MAb, whereas sustained therapy with the anti-L3T4 fragments blocked this response. Surprisingly, low doses (less than or equal to 10 micrograms/mouse) of intact rat MAb to L3T4 also stimulated a host immune response to the MAb but, as previously reported, higher doses of intact MAb to L3T4 did not. These findings establish that depletion of L3T4+ cells is not required to suppress immunity with MAb to L3T4. They also indicate that the ability of rat MAb to L3T4 to block the immune response to itself is dose dependent. Because the L3T4 antigen in mice is homologous to the CD4 antigen in humans, our findings have implications regarding the potential use of MAb to CD4 in humans.