Antigen-specific suppression of cytotoxic T cell responses: an idiotype-bearing factor regulates the cytotoxic T cell response to azobenzenearsonate-coupled cells

When A/J mice are injected subcutaneously with azobenzenearsonate- (ABA) coupled spleen cells, their splenocytes contain primed ABA-specific cytotoxic T lymphocyte (CTL) precursors. Animals that are not primed in vivo do not develop vigorous CTL activity when assessed after in vitro culture with ABA-coupled stimulators. Suppressor molecules derived from ligand-induced first-order ABA-specific suppressor T cells were evaluated for their ability to limit cytolytic T cell development. We have shown that an idiotype-bearing, hapten-specific suppressor factor suppresses priming for CTL in an H-2-unrestricted but allotype-restricted manner. The implication of these studies to regulatory networks is discussed.     

T lymphocyte-mediated suppression of myeloma function in vitro. I. Suppression by allogeneically activated T lymphocytes.

Alloreactive cells generated by in vitro stimulation of C57BL/6 (H-2b) spleen lymphocytes with irradiated MOPC 315 or MOPC 104E(H-2d) cells were shown to lyse 51Cr-labeled myeloma targets at high effector:target ratios under conditions of inefficient cell contact, the alloreactive cells cause variable and frequently minimal lysis of myeloma targets but markedly suppress antibody secretion even by viable myeloma cells. The suppressor cells are radioresistant T cells lacking I-J subregion-encoded surface determinants; their precursors are insensitive to cyclophosphamide; suppression is H-2 specific and not mediated by secreted factors; and the suppression is blocked by Cytochalasin B, a known inhibitor of T cell-mediated cytolysis. These properties are typical of cytolytic T lymphocytes (CTL) and not of defined suppressor T cells, suggesting that inhibition of myeloma function probably represents a pre-lytic effect of the alloreactive CTL, although a CTL-like suppressor cell effect cannot be definitively excluded. These results are discussed with reference to the possible relationships between suppressor and cytolytic T lymphocytes.     

Suppressor T cells regulate the cytolytic T lymphocyte response to syngeneic tumors induced by murine sarcoma virus (MSV) in the mouse.

Studies were designed to analyze the immune activities of spleen cells from mice previously injected with murine sarcoma virus (MSV) and undergoing the processes of MSV tumor growth and rejection. Fractionation of MSV-primed spleen cells according to cell size by velocity sedimentation at unit gravity showed that MSV-specific cytolytic T lymphocytes (CTL) generated in vivo underwent an apparent transition in size from large to small cells as the tumor regressed. The majority of CTL precursors, however, were invariably recovered among small to medium-sized MSV-immune cells, as revealed to CTL generation in vitro in secondary mixed leukocyte-tumor cell cultures (MLTC). Evidence was obtained for the existence in MSV-immune spleens of two suppressor cell populations capable of inhibiting CTL generation in vitro: one population probably consisted of macrophages and could be removed by treatment with carbonyl iron; the second population was comprised of T cells and inhibited the differentiation of tumor-immune CTL precursors in a selective manner. These results provide a preliminary overview of the mechanisms regulating the generation, differentiation, and activity of tumor-specific CTL in a syngeneic model system.     

Cell-mediated inhibition of proliferation and activation of alloreactive cytotoxic lymphocytes: maintenance of response potential of precursors and dissociation between proliferation and effector function of activated cytotoxic lymphocytes

Adherent layers of macrophages (M phi-c) generated in vitro from splenic precursors inhibit lymphoproliferative responses to mitogen and to alloantigen without inhibiting the production of interleukin-2 (IL-2). Analysis of spleen cells stimulated for 48 hr in the presence of M phi-c indicated that both blastogenesis (increased cell mass) and expression of IL-2 receptors (7D4 determinants) were reduced. Analysis of BrdU incorporation (frequency of S-phase cells) and total cellular DNA revealed that the M phi-c inhibited the progression from G1 to S phase of cell cycle. The M phi-c not only inhibited the proliferative response to alloantigen but also prevented the generation of alloreactive cytotoxic T cells. The M phi-c were shown not to inhibit CTL responses by eliminating the stimulators or by inactivating precursors or inducing suppressors. The M phi-c were affecting the induction of CTL activity since the M phi-c did not affect the expression of cytolytic activity by activated CTL. The M phi-c did inhibit the proliferation of the activated CTL, suggesting that although cytolytic activity can be expressed in G1 phase of cell cycle, the activation of cytolytic activity in CTL-P may require a G1 to S phase transition. The cells recovered from 5-day MLC incubated in the presence of M phi-c were fully capable of generating a subsequent CTL response. This is in contrast to cells recovered from unstimulated cultures (no M phi-c) which have lost the ability to generate CTL responses. The M phi-c therefore prevent the generation of CTL responses in a totally reversible fashion, so as to allow activation and proliferation of CTL-P which have been removed from the influence of the M phi-c. These observations are discussed in the context of the currently hypothesized role of tissue macrophages in microenvironmental regulation.     

Mature dendritic cells prime functionally superior melan-A-specific CD8+ lymphocytes as compared with nonprofessional APC

Priming of melan-A(26/27-35)-specific CTL occurs only in a fraction of late stage melanoma patients, whereas during the early stages of the disease and in healthy volunteers, melan-A CTL have functional and phenotypic markers consistent with a naive phenotype. To study the requirements for expansion of naive melan-A CTL from healthy donors, we set up an in vitro priming protocol and, using tetramer assays, we demonstrate that the activity and phenotype of the expanded melan-A CTL are profoundly influenced by the type of APC used. Priming by nonprofessional APC leads to expansion of melan-A CTL with reduced cytolytic activity and low level of IFN-gamma secretion. In contrast, mature dendritic cells (DC) expand cytolytic and IFN-gamma-producing melan-A CTL. Priming by mature DC is also efficient at low peptide concentration and requires only one round of stimulation. Finally, we observed that a significant fraction of CD45RO(+) melan-A CTL primed by mature DC expresses high levels of the homing receptor CD62L, whereas CTL primed by nonprofessional APC express CD62L in lower percentages and at lower levels. These results suggest that suboptimal priming by nonprofessional APC could account for the presence in vivo of dysfunctional cells and strongly support the immunotherapeutic use of mature DC for expansion of effector and memory Ag-specific CTL.     

Priming for a cytotoxic response to minor histocompatibility antigens: antigen specificity and failure to demonstrate a carrier effect.

Spleen cells from normal mice do not give a detectable in vitro cytotoxic T cell (CTL) response to minor H antigens. Spleen cells from animals primed in vivo with minor H antigens give a strong CTL response when boosted in culture with the appropriate stimulating cells. Here I have studied the requirements for priming a CTL response to minor H antigens. It is shown that priming is just as antigen specific as is cytolytic effector function. That is, priming cells have to carry the same minor antigens as the challenge cells. Inducing a graft-vs-host reaction in vivo does not nonspecifically allow spleen cells to respond to minor H antigens in vitro. Using minor H congenic mice (congenic for H-Y and/or H-7) I have also tried, and failed, to demonstrate a carrier effect in priming. Female mice primed to H-Y were challenged in culture with cells bearing H-Y and H-7 antigens in the hope that a helper response to H-Y would augment a CTL response to H-7. This did not happen, however. Such primed and boosted cells gave a strong secondary CTL response to H-Y but none to H-7. It is concluded that in order to prime for a detectable in vitro response to minor antigens it is necessary to expose the CTL precursors to antigen in vivo. This either expands the size of the pool of precursors by cell division or changes them in some qualitative way.     

Human mesenchymal stem cells suppress induction of cytotoxic response to alloantigens

Mesenchymal stem cells (MSC) fail to induce allogeneic responses in mixed lymphocyte reaction assays. Because MSC express HLA class I molecules, here we investigated whether they could be recognized as allogeneic targets by cytolytic T lymphocytes (CTL). With this aim, CTL precursor (CTLp) frequencies were measured following stimulation of T cells with either allogeneic mononuclear cells (MNC) or MSC originated from the same human bone marrow donor. Lysis of MSC was measured at day 10 of culture in standard chromium release assays. In addition, allogeneic PHA blast T cells or B-EBV lymphoblastoid cell lines (LCLs) generated from the same donor were used as positive controls of lysis. Our results showed that when allogeneic MNC were used to stimulate T cells, a high CTLp frequency was detected towards MSC targets. However, when MSC were used as stimulators, CTLp frequencies were markedly altered whatever the targets used, i.e.: MSC, PHA blast T cells or EBV-B LCLs. Moreover, when graded concentrations of MSC were added together with MNC upon stimulation of alloreactive T cells, we observed a dose-dependent decrease in CTLp frequencies towards MSC targets. This inhibition of MSC lysis was partially overcome by adding exogenous rh-IL-2 from the beginning of cultures. In addition, this suppressive effect was totally reproduced when, instead of MSC, supernatant harvested from MSC cultures was added to allogeneic MNC, upon stimulation of alloreactive T cells. In conclusion, our results demonstrate that MSC which can be recognized as targets by pre-activated alloreactive CTLs, may be able to suppress differentiation of CTL precursors into CTL effectors through secretion of suppressive factors.     

Herpes simplex virus type 1-specific cytotoxic T-lymphocyte arming occurs within lymph nodes draining the site of cutaneous infection

Various studies have shown that major histocompatibility complex class I-restricted cytotoxic T lymphocytes (CTL) can be isolated from lymph nodes draining sites of cutaneous infection with herpes simplex virus type 1 (HSV-1). Invariably, detection of this cytolytic activity appeared to require some level of in vitro culture of the isolated lymph node cells, usually for 3 days, in the absence of exogenous viral antigen. This in vitro "resting" period was thought to represent the phase during which committed CD8(+) T cells become "armed" killers after leaving the lymph nodes and prior to their entry into infected tissue as effector CTL. In this study we reexamined the issue of CTL appearance in the HSV-1 immune response and found that cytolytic activity can be isolated directly from draining lymph nodes, although at levels considerably below those found after in vitro culture. By using T-cell receptor elements that represent effective markers for class I-restricted T cells specific for an immunodominant glycoprotein B (gB) determinant from HSV-1, we show that the increase in cytotoxicity apparent after in vitro culture closely mirrors the expansion of gB-specific CTL during the same period. Taken together, our results suggest that HSV-1-specific CTL priming does not appear to require any level of cytolytic machinery arming outside the lymph node compartment despite the absence of any detectable infection within that site.     

A helper factor needed for the generation of mouse cytolytic T lymphocytes is made by tumor cell lines, cloned T cells, and spleen cells exposed to a variety of stimuli

A helper factor termed cytolytic T lymphocyte helper factor (CHF) that is needed for the generation of allospecific mouse cytolytic T lymphocytes (CTL) in vitro was produced by mouse spleen cells 3 to 4 days after the time when interleukin 2 (IL 2) had reached its maximal production. These kinetics were observed by stimulation of immune spleen cells with allogeneic tumor or spleen cells, with Sendai or influenza viral peptides, with virus infected cells, or with concanavalin A (Con A). CHF produced by rat spleen cells was able to help in the generation of mouse CTL, indicating that this cytokine was not restricted genetically. CHF could also be made by WEHI-3 and EL4 cell lines, as well as cloned cytolytic and helper T cells. The production of CHF by WEHI-3 cells argues that CHF is not IL 2. In addition, if CHF was not present early in the in vitro stimulation no CTL were generated, suggesting that CHF participated in the activation of CTL precursors. The addition of IL 2-containing conditioned medium to the CHF assay resulted in no substantial CTL generation, although significant cellular proliferation was observed. In contrast, CHF-containing conditioned medium allowed the generation of CTL in the absence of the same level of proliferation.     

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.     

The cytolytic T lymphocyte response to trinitrophenyl-modified syngeneic cells. I. Evidence for antigen-specific helper T cells.

Mice were primed subcutaneously with trinitrophenyl (TNP)-modified syngeneic spleen cells. Seven days later, spleen cells from these in vivo primed mice, or spleen cells from naive mice, were co-cultured with TNP-modified syngeneic cells. Spleen cells from the in vivo primed mice demonstrated augmented cytolytic T lymphocyte (CTL) activity. The spleens of these in vivo primed mice contained a population of radioresistant, antigen-specific, helper T cells. Specifically, spleen cells from these mice, after x-irradiation, were able to augment the in vitro CTL response of normal spleen cells to TNP-modified syngeneic cells.     

Resistance of primary CD8+ cytotoxic T lymphocytes to lysis by cytotoxic granules from cloned T cell lines

Recent evidence has shown that cloned, murine CTL cell lines are resistant to the cytotoxic components of the toxic granules they release upon specific interaction with their target cells. Inasmuch as the resistance might be due to selection in culture over many months by repeated exposure to these cytolytic components (which are released repeatedly as a result of the cultured CTL being periodically stimulated by target cells), we asked whether primary CTL are also resistant. The primary CTL were elicited in vivo by i.p. injection of allogeneic tumor cells or in vitro by 5- to 6-day MLC or by 48-h exposure to the lectin Con A. The responding cells were separated into purified CD8+ (i.e., CD4-, CD8+) and purified CD4+ (i.e., CD4+, CD8-) T cell populations that were analyzed for cytolytic activity and for resistance to lysis by toxic secretory granules derived from cloned CTL cell lines. The CD8+ T cells were highly cytolytic and relatively resistant; they retained their cytolytic activity and were lysed to a minimal extent (0 to 10%) by quantities of isolated granules that lysed 80 to 90% of the P815 tumor cell line (tested as a representative standard cell line). The CD4+ T cells, in contrast, had only minimal cytolytic activity and were far more susceptible to granule-mediated lysis. Although the resistance of primary CD8+ T cells is impressive, it is not as pronounced as the resistance of the cloned CTL cell lines, indicating that during long-term culture there is some selection for increased resistance to granule-mediated lysis. In contrast to T cells (especially CD8+ T cells), Ia+ macrophages, isolated from primary immune peritoneal exudates, were highly susceptible to granule-mediated lysis.     

Direct in vitro inactivation of murine alloreactive cytotoxic-T-lymphocyte precursors by syngeneic nonspecific cytotoxic-T-cell populations

Nonspecific cytotoxic T-cell populations, derived from murine fetal calf serum (FCS)-precultured cells expanded in interleukin 2 (IL-2)-containing supernatant (operationally defined as FCS-CM-expanded cells), were investigated for their inactivating properties on syngeneic lymphoid cell populations containing alloreactive cytotoxic-T-lymphocyte precursors (CTL-P). CTL-P were detected and quantitated in a limiting dilution mixed leukocyte microculture (micro-MLC) system supplemented with IL-2. The data show a dramatic decrease in relevant CTL-P frequency in populations of fresh or Day 2 in vitro-alloactivated peripheral blood leukocytes (PBL) after coculturing them for 24 hr with syngeneic mitomycin C-treated populations of FCS-CM-expanded cells. On the contrary, no decrease in CTL-P frequency was observed when Day 7, instead of fresh or Day 2, in vitro-alloactivated PBL were used as responding cells. Throughout these experiments, it was clearly shown that a decrease or an absence of CTL response in the micro-MLC was neither due to a lack of IL-2 nor to a premature destruction of the stimulating cells by the inhibiting FCS-CM-expanded cells still present in the culture. FCS-CM-expanded cells can destroy (in a 3-hr 51Cr-release assay) Day 2 alloreactive PBL populations, and this raises the possibility that the direct inactivation of CTL-P by FCS-CM-expanded cells could result from their cytolytic activities.     

Cytolytic T-lymphocyte responses to respiratory syncytial virus: effector cell phenotype and target proteins.

Cytolytic T-lymphocyte (CTL) activity specific for respiratory syncytial (RS) virus was investigated after intranasal infection of mice with RS virus, after intraperitoneal infection of mice with a recombinant vaccinia virus expressing the F glycoprotein, and after intramuscular vaccination of mice with Formalin-inactivated RS virus or a chimeric glycoprotein, FG, expressed from a recombinant baculovirus. Spleen cell cultures from mice previously infected with live RS virus or the F-protein recombinant vaccinia virus had significant CTL activity after one cycle of in vitro restimulation with RS virus, and lytic activity was derived from a major histocompatibility complex-restricted, Lyt2.2+ (CD8+) subset. CTL activity was not restimulated in spleen cells from mice that received either the Formalin-inactivated RS virus or the purified glycoprotein, FG. The protein target structures for recognition by murine CD8+ CTL were identified by using target cells infected with recombinant vaccinia viruses that individually express seven structural proteins of RS virus. Quantitation of cytolytic activity against cells expressing each target structure suggested that 22K was the major target protein for CD8+ CTL, equivalent to recognition of cells infected with RS virus, followed by intermediate recognition of F or N, slight recognition of P, and no recognition of G, SH, or M. Repeated stimulation of murine CTL with RS virus resulted in outgrowth of CD4+ CTL which, over time, became the exclusive subset in culture. Murine CD4+ CTL were highly cytolytic for RS virus-infected cells, but they did not recognize target cells infected with any of the recombinant vaccinia viruses expressing the seven RS virus structural proteins. Finally, the CTL response in peripheral blood mononuclear cells of adult human volunteers was investigated. The detection of significant levels of RS virus-specific cytolytic activity in these cells was dependent on at least two restimulations with RS virus in vitro, and cytolytic activity was derived primarily from the CD4+ subset.     

Lack of DNA degradation in target cells lysed by granules derived from cytolytic T lymphocytes

It has been shown previously that fragmentation of target cell DNA is an early event in lysis mediated by cytolytic T lymphocytes (CTL). In this study, we have investigated whether CTL-derived granules that exhibit lytic activity also induce DNA fragmentation in murine target cells. Cytolytic granules isolated from three different alloreactive CTL clones were tested for the induction of DNA fragmentation in P815 and EL4 target cells, by using a Triton X-100-facilitated, radiolabeled DNA release assay. In contrast to the CTL clones from which they were derived, the cytolytic granules did not induce DNA fragmentation. Agarose gel electrophoretic analysis of DNA confirmed the lack of discrete DNA fragments in target cells lysed by CTL-derived granules. Possible explanations for the difference in the ability of CTL and CTL-derived granules to trigger DNA fragmentation are discussed.     

Cytotoxic T lymphocyte recognition of novel allodeterminants expressed on in vitro selected H-2Kb mutants

In the present study, in vitro derived H-2Kb mutants have been examined by alloreactive CTL. Two mutants, R8.24 and R8.246, have been shown to express novel determinants detected by CTL generated against some but not all in vivo derived Kb mutants. BDF1 anti-bm3, anti-bm11, anti-bm19, anti-bm23, and anti-bm6 CTL populations lyse the two R8 variants. The novel determinants expressed on the R8 mutants detected by the bm3 and bm23-specific CTL appear to differ from the determinant recognized by the bm6-specific CTL. No new serologically defined determinants were detected on any of 18 independent R8 variants. However, these results do not rule out the existence of new determinants which could be recognized by antibodies. Finally, the relationship between the T cell recognition of the in vivo and in vitro derived mutants and their use in understanding the structure/function relationships between the immune response and class I Ag based on recent crystallographic analyses is discussed.     

Human T cell subpopulations defined by a monoclonal antibody. II. Evidence for cell cooperation in the response to alloantigens and generation of cytolytic cells

It has been shown previously that the 5/9 monoclonal antibody defines a small T cell subpopulation in human peripheral blood that includes all the cells responsible for proliferation to tetanus toxoid and to alloantigens as well as the helper cells for B cell differentiation. In the present study, human peripheral blood T cells were fractionated according to their reactivity with the 5/9 monoclonal antibody and stimulated in mixed lymphocyte culture (MLC). In spite of a strong proliferative response in MLC, 5/9+ cells generated no cytolytic activity against PHA-activated lymphocytes bearing the stimulating alloantigens (CTL activity) or against the K562 human cell line (NK activity). The precursors of these cytolytic effector cells were present in the 5/9- fraction. However, 5/9+ cells or soluble factors derived from 5/9+ cells were needed to induce 5/9- cells to respond in MLC and develop cytolytic activity. Both 5/9+ and 5/9- cell populations, upon MLC stimulation, were able to lyse L1210 mouse lymphoma cells in the presence of specific antibodies (ADCC).     

Highly lytic in vivo primed cytolytic T lymphocytes devoid of lytic granules and BLT-esterase activity acquire these constituents in the presence of T cell growth factors upon blast transformation in vitro

Demonstration of C-like "rings," lytic granules, and the Ca2+-dependent lytic proteins--perforin/cytolysin--thereof, in certain cytocidal lymphocytes has led to the hypothesis of a mechanism of lytic granule-exocytosis and a common terminal lytic step in lymphocyte and C-induced lysis. However, neither cytolytic granules, nor formation of C-like rings during lysis have been detected in mature, highly potent, peritoneal exudate CTL (PEL) derived directly from the site of allograft rejection or in cytocidal hybridomas derived from them (PEL hybridomas). We now report that when stimulated in vitro in the presence of Con A supernatant, as a source of T cell growth factors (TCGF) or rIL-2, small in vivo primed PEL transform into large, dividing cytolytic T cells (PEL blasts) that express the same lytic specificity of the original PEL in short term lytic assays. The PEL blasts, in contrast to PEL, possess massive quantities of lytic granules, and protease (N-alpha-benzyloxycarbonyl-L-lysine thiobenzyl ester esterase) (BLT-esterase) activity as well as non-specific, cell-mediated cytolytic activity in a long term (4-h) assay. These results suggest that the proposed lytic mechanism involving exocytosis of lytic granules, perforin, and BLT-esterases and the formation of 10 to 20-nm lesions may apply to lysis induced by granule-containing effectors such as large granular lymphocytes and TCGF-dependent CTL lines, such as PEL blasts. However, killing by mature, in vivo primed CTL, such as PEL or their hybridomas, appears to be effected through an alternative, contact-induced, self-destruction process(es) of the target not involving secretory lytic granules or the above lesions. Hence, although the expression of lytic granules and BLT-esterase activities in cytolytic lymphocytes devoid of these components is induced by TCGF, these cellular constituents are not necessary for the expression of CTL-mediated target cell lysis by mature effector cells.     

Resistance of lymphokine-activated T lymphocytes to cell-mediated cytotoxicity

We observed that lymphokine-activated T lymphocytes, obtained in short- and long-term cultures following stimulation with recombinant interleukin-2 (rIL-2), are resistant to cell-mediated cytotoxicity. In particular, lymphokine-activated killer (LAK) cells do not undergo self-lysis or lysis by alloreactive cytotoxic T lymphocytes (CTL), in line with recent reports concerning CTL clones. Similar findings were further confirmed in a lectin-dependent cell cytotoxicity assay. LAK cell lysis resistance was not due to an inability to recognize itself, since inactivated LAK cells used as cold competitors inhibited tumor cell lysis in a dose-dependent manner. In contrast, the addition on Day 0 of irradiated LAK cells or alloreactive CTL, as well as a CTL clone having LAK-like activity to rIL-2-stimulated cultures abrogated or strongly reduced LAK cell generation. Therefore, LAK cell precursors were most likely susceptible to the lytic activity of differentiated cytotoxic cells, as no inhibition was detected when cell to cell contact was prevented by using a diffusible chamber culture system. These findings, on the whole, suggest that the emergence of the lysis-resistant phenotype is most likely the result of a selective process occurring in vitro that leads to the elimination of lysis-susceptible lymphocytes present in culture.     

Studies on the induction and expression of T cell-mediated immunity. IV. Non-overlapping populations of alloimmune cytotoxic lymphocytes with specificity for tumor-associated antigens and transplantation antigens.

Two non-overlapping populations of alloimmune cytotoxic T cells with specificity for tumor-associated antigens (TAA) and for histocompatibility antigens (H-2) were characterized by two independent methods. The heterogeneity of cytotoxic cells was demonstrated in spleen cells derived from BALB/c (H-2d) mice sensitized to EL-4 (H-2b) tumor and from C57BL/6 (H-2b) mice sensitized to G-35 (H-2d) tumor cells. Adsorption of immune lymphocytes on monolayers prepared with cells bearing the sensitizing H-2 antigens abrogated the in vitro cell-mediated cytotoxicity (CMC) directed against 51Cr-labeled normal target cells (spleen cells or ConA-activated spleen blasts), whereas significant cytolytic activity to the corresponding 51Cr-tumor cells was still retained. Likewise, in competitive inhibition assays, CMC to 51 Cr-tumor target cells was only partially inhibited by unlabeled normal cells, whereas CMC to 51Cr-normal target cells was completely abrogated. These results suggested that alloimmune cytotoxic lymphocytes are heterogeneous and can be subdivided into two independent populations of restricted specificity. Several experiments suggested that the effector cell population directed against TAA can no longer elicit a graft-vs-host (GVH) reaction in vivo. This was demonstrated by adoptive transfer into lethally-irradiated allogeneic recipients of cytotoxic or primed spleen cells fractionated on host target cell monolayers. Furthermore, these results demonstrated that both effector cells and memory cells possess high affinity binding receptors to corresponding H-2 antigens. The potential use of fractionated immune lymphocytes sensitized to tumor allografts in adoptive immunotherapy is discussed.