Antigen-presenting T cells. II. Clonal responses of alloreactive and virus-specific self-restricted human cytotoxic T cell responses stimulated by T lymphoblasts

The capacity of various stimulator cell types to present alloantigens or viral antigens to resting human CD8+ cytotoxic lymphocyte precursors (CLP) was analyzed in a limiting dilution culture system. Cell sorter-separated T lymphoblasts of both CD4+ and CD8+ phenotypes but not resting T cells were found to efficiently stimulate the clonal development of allogeneic CD8+ CLP. Thus, 5000 CD4+ T lymphoblasts activated as many (one out of 200 to one out of 300) allogeneic CLP as 50,000 peripheral blood mononuclear stimulator cells. This potent stimulator activity was found in CD4+ and CD8+ T lymphoblasts activated by mitogen, anti-T3 monoclonal antibody, or mixed leukocyte reactions. Cytotoxic T cells generated in this system were highly specific for HLA class I antigens. Furthermore, T lymphoblasts infected with mumps virus efficiently induced development of autologous CLP into CTL clones that were virus specific and self-HLA restricted, as shown by split-well analysis. The possible in vivo significance of antigen-presenting T lymphoblasts is discussed.     

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.     

Antigen-presenting T cells. I. Class I alloantigen (bm1)-bearing T lymphoblasts efficiently stimulate a primary clonal response of Lyt-2+ cytotoxic lymphocyte precursors of B6 origin

The cytotoxic response of splenic Lyt-2+ T cells to class I H-2 alloantigen-bearing stimulator cells was analyzed under limiting dilution conditions. One of 50 to one of 200 nylon wool-nonadherent (FACS-purified), small Lyt-2+ spleen cells of B6 origin gave rise in vitro to a cytotoxic T lymphocyte clone that specifically lysed targets bearing bm1 alloantigen. This population of alloantigen-specific cytotoxic lymphocyte precursors (CLP) was activated by different types of bm1 stimulator cells with different efficiency: 2 X 10(5) nonfractionated spleen cells, 5000 normal peritoneal cells, 400 to 10(4) L3T4+ helper T blasts, or 2000 to 10(4) Lyt-2+ T blasts induced clonal growth of this CLP pool. Irradiated or mitomycin-treated small (L3T4+ or Lyt-2+) bm1-derived T cells were inefficient stimulator cells for this response. Supplementation of culture medium with (recombinant) interleukin 2 was necessary and sufficient to support clonal development of alloantigen-triggered CLP in the presence of allogeneic T blasts. Under these limiting dilution conditions, we observed comparable cloning efficiencies for (wild-type) Kb-allospecific splenic Lyt-2+ CLP from bm1 mice generated in response to either irradiated B6 spleen cells or inactivated B6-derived T cell lines (EL4 and RBL-5 lymphoma cells). The data indicate that normal T lymphoblasts as well as tumor T cell lines stimulate clonal development in vitro of class I H-2-allospecific cytotoxic T lymphocytes in the presence of interleukin 2.     

CD4-CD8- human T cells: phenotypic heterogeneity and activation requirements of freshly isolated "double-negative" T cells

In the present study we have analyzed the in vitro activation requirements of freshly isolated CD4-CD8- "double-negative" (DN) human peripheral blood T cells. DN cells were isolated from E+ cells by removal of CD4+, CD8+, and CD16+ cells through consecutive steps of C'-mediated lysis and panning. While the majority (79.0 +/- 12.0%) of DN cells were TCR gamma delta+ as shown by staining with mAb TCR delta-1, a minor fraction (6.7 +/- 4.7%) expressed TCR alpha beta as revealed by staining with mAb BMA031. Within the gamma delta+ DN fraction, most cells reacted with mAb Ti gamma A which delineates a V gamma 9JPC gamma 1 epitope, whereas a minor fraction stained with mAb delta TCS-1 which identifies a V delta 1J delta 1 epitope. Functional studies performed at low cell number (1000) per microculture indicated that DN cells can be activated by anti-CD3 mAb, PHA and allogeneic stimulator cells, provided that exogenous growth factors are supplied. Both rIl-2 and rIl-4 acted as efficient growth factors for DN cells, and a synergistic stimulatory effect of rIl-2 and rIl-4 was observed when DN cells were cocultured with allogeneic LCL stimulator cells. As compared to unseparated E+ cells, isolated DN responder cells had a reduced capacity to secrete Il-2 upon PHA stimulation in the presence of LCL feeder cells. The majority of DN cells maintained their CD3+ CD4-CD8- phenotype upon coculture with allogeneic LCL stimulator cells. These data demonstrate that CD3+ DN cells in human peripheral blood are heterogeneous with respect to TCR expression. In addition, they show that freshly isolated DN cells are deficient in Il-2 production but may be normally stimulated by anti-CD3, PHA, or alloantigen if exogenous growth factors (rIL-2 and/or rIl-4) are provided.     

Further characterization of the autologous mixed lymphocyte reaction: induction of double negative gamma delta T lymphocytes.

To investigate the specific nature of the autologous mixed lymphocyte reaction (AMLR), we applied a method in which mixtures of NY-nonadherent responder cells and NY-adherent stimulator cells were treated with neuraminidase before culture and then cultured to assay the AMLR. This method produced a marked enhancement of DNA replication in the responder cells and the results were reproducible, regardless of the individuals tested. Using this method, we were able to make the following observations regarding the specific nature of the AMLR. (i) The AMLR is an IL-2-independent reaction, as revealed by bioassay to detect the presence of IL-2 by a blocking test using anti-IL-2R sera and as shown by the absence of mRNA for IL-2 in Northern hybridization. (ii) It is also HLA-DR dependent as proven by the fact that anti-DR sera almost completely inhibited the reaction. (iii) The AMLR was also found to induce the generation of activated CD4+ helper T cells in direct response to stimulation by NY-adherent cells, in which HLA-DR antigens were involved. (iv) Also, it induced the generation of CD4-CD8- double-negative (DN) lymphocytes, including gamma delta T cells with a cytotoxic activity against NK-resistant target cells and with a variety of lymphocyte activation markers (CD56, HLA-DR, CD25, transferrin receptors, CD38, and LFA-1). However, the AMLR did not induce the generation of NK cell markers CD16 and CD57. (v) The DN lymphocytes and gamma delta T cells appeared to be generated from the precursors of CD4-CD8- DN cells, in direct response to the stimulator cells. These results strongly suggest that the AMLR may be a phenomenon which induces the proliferative response of gamma delta T cells and their precursors, in addition to that of alpha beta T cells, particularly of CD4+ helper T cells.     

Stimulator cell requirements for allospecific T cell subsets: specialized accessory cells are required to activate helper but not cytolytic T lymphocyte precursors

Murine cortisone-resistant thymocytes were separated by staining with monoclonal anti-Lyt-2 antibody and FMF into Lyt-2- and Lyt-2+ subsets in order to analyze the nature of stimulator accessory cells required to activate each of these functionally distinct T cell subpopulations. The Lyt-2- fraction was able to proliferate but not to generate cytotoxic cells when stimulated by irradiated allogeneic spleen cells. Fractionation of the stimulator population showed that low numbers of dendritic cells and splenic macrophages, but not equivalent numbers of whole spleen cells or peritoneal macrophages, were able to stimulate the Lyt-2- population. On the other hand, the Lyt-2+ population, which showed little if any proliferation in response to irradiated spleen cells, contained all the precursors of cytolytic T lymphocytes. In contrast to the highly specific stimulator requirement of the Lyt-2- fraction, allospecific cytotoxic cells were generated from Lyt-2+ cells by any alloantigen-bearing stimulator cell provided interleukin 2 was present. This was confirmed by limiting dilution analysis: alloreactive CTL-P frequencies in spleen and thymus were not influenced by the nature of the stimulator cell. These data collectively indicate that heterogeneous Ia+ accessory cells are required to stimulate helper but not cytolytic T cell precursors.     

Significant frequency of cytotoxic T lymphocyte precursor cells specific for TNP-modified allogeneic cells in normal lymphocytes

It was tested whether the cytotoxic T-lymphocyte precursor (CLP) repertoire in normal mice is biased toward recognizing foreign antigen in association with self H-2 as opposed to allogeneic H-2. The frequencies of CLPs in normal mice (H-2b,k,d) specific for TNP-modified syngeneic and TNP-modified allogeneic cells have been compared by limiting dilution analysis. Normal spleen cells were cultured at a limiting dilution with TNP-modified (TNP-self) or TNP-modified allogeneic (TNP-allo) stimulator cells. Cultures were split into four aliquots and assayed against TNP-self, TNP-allo, unmodified syngeneic, and unmodified allogeneic Concanavalin A blast targets and classified for cytotoxic activity directed against TNP-self, TNP-allo, and allo H-2 determinants. In disagreement with our expectations from the literature, the frequencies of CLPs in H-2b and H-2d responder cells recognizing TNP-modified H-2k were higher than the frequencies of CLPs recognizing TNP-self. There was no clear preference for TNP-self in the case of H-2b responder and H-2d allogeneic cells, nor vice versa. Only in the case of H-2k responder cells was there a distinct preference for TNP-self. The significance of a considerable number of TNP-specific, allo H-2-restricted CLPs in normal lymphocytes is discussed.     

Clonal analysis of the peripheral T cell compartment of the SCID-hu mouse.

Severe combined immunodeficiency (SCID) mice can be transplanted successfully with human fetal liver and thymus (SCID-hu mice). Precursor cells derived from the fetal liver differentiate in the thymus and migrate into the blood as mature T cells. In the present paper, the peripheral T cell compartment of such mice was studied. Peripheral WBC were activated by PHA and cultured in the presence of irradiated human feeder cells. The resultant cell population consisted exclusively of human CD1- CD2+ CD3+ CD7+ T lymphocytes; up to 4% of the T cells expressed the TCR gamma delta, whereas 95 to 100% were TCR alpha beta +. The CD4bright (42 to 66%) and CD8bright (30 to 54%) populations coexpressed variable but low levels of CD8 and CD4, respectively. The T cell cultures from the SCID-hu mice did not display reactivity towards the autologous human EBV-transformed B cell lines (B-LCL). On the other hand, these human T cells proliferated and were cytotoxic against allogeneic human B-LCL. T cell clones were established from cultured SCID-hu T cells. All T cell clones were TCR alpha beta + CD3+ CD2+; 61% of the clones were CD4+ CD8-, 27% were CD8+ CD4-, 11% were CD8+ CD4lo, and 2% were CD4+ CD8lo. None of these clones recognized the autologous B-LCL established from the fetal human donor. Fourteen of 100 T cell clones had specific alloreactivity, as tested on a panel of five B-LCL. Of these 14, two CD8+ CD4lo and two CD8+ CD4- clones were cytotoxic and did not proliferate in response to specific stimulator cells. Furthermore, two CD4+ CD8lo and eight CD4+ CD8- clones proliferated specifically in response to alloantigens. In conclusion, the peripheral human T cells of SCID-hu animals are functional and their TCR repertoire is polyclonal, alloreactive, and devoid of self-reactive cells. Therefore, the SCID-hu mouse can be a suitable model for the study of alloreactivity and allotolerance in vivo, as well as for the study of negative selection in the human thymus.     

Functional and morphologic characterization of human T lymphocytes expressing the TCR gamma /delta

A minor subset of T lymphocytes express a TCR composed of gamma and delta chains. This subset differs from conventional T cells for a number of phenotypic and functional characteristics. TCR gamma/delta+ cells simultaneously lack both CD4 and CD8 antigens. Cloning of CD4-8- peripheral blood lymphocytes, under limiting dilution conditions, revealed that they are homogeneously composed of cytolytic cells which efficiently lyse tumor target cells. Formal proofs have been provided that TCR gamma/delta+ cells are able to recognize antigens. For example, they proliferated in response to allogeneic mixed lymphocyte culture (MLC); in addition, MLC-derived TCR gamma/delta+ cells specifically lysed PHA-induced blast cells bearing the stimulating alloantigens. The selection of monoclonal antibodies specific for TCR gamma/delta molecules allowed to identify two distinct subsets of TCR gamma/delta+ cells. Both of these mABs, termed BB3 and delta TCS-1 respectively, induced specific activation of cloned cells expressing the corresponding antigenic determinants (as assessed by measurements of intracellular Ca++ and/or lymphokine production or cytolytic activity). Analysis of the distribution of subsets expressing different forms of TCR gamma/delta, showed that the BB3-reactive form is prevalent in the peripheral blood. In contrast, delta-TCS-1-reactive cells are relatively unfrequent in peripheral blood but represent the majority of TCR gamma/delta+ cells in tissues.     

Role of HLA-DR bearing Langerhans and epidermal indeterminate cells in the in vitro generation of alloreactive cytotoxic T cells in man

Human epidermal cells (EC) act as stimulator cells in the mixed-skin cell lymphocyte culture reaction (MSLR). To analyze the role of human epidermal Langerhans cells (LC) and indeterminate cells (IC), which are the only cells expressing the DR-Ia-like antigens in normal epidermis, in the generation of alloreactive cytotoxic T lymphocytes (CTL) in cell-mediated cytolysis, 18-hr 51Cr-release assays against PBL targets (targets autologous to stimulator EC) were conducted after allogeneic human MSLR. MSLR and CTL assays were conducted with, as stimulator cells, suspensions of normal human EC as controls, and EC after: (1) preincubation with anti-HLA-DR or OKT6 (specific for LC in EC suspension) monoclonal antibodies; (2) panning, a monolayer technique used to deplete EC suspensions in OKT6 or DR-positive cells. The generation of alloreactive CTL was found to occur only after allogeneic MSLR and when targets and stimulator cells were from the same donor; it was reduced by EC incubation: cytotoxic activity 26.66 +/- 3.84 (controls); 8.8 +/- 3.6 and 7.7 +/- 3.7 (EC incubated with OKT6 or anti-DR, respectively); it was reduced or abolished when the EC used in MSLR were depleted in OKT6 or DR-positive cells by panning. These findings demonstrate that human LC and IC are necessary for an optimal in vitro sensitization in MSLR and the subsequent in vitro generation of alloreactive CTL in man.     

Propagation of cytotoxic effectors from chronic myeloid leukemia patients and cloning of cytotoxic T cells

Summary Cytotoxic cells (CTCs) generated from peripheral blood lymphocytes of 5 chronic myeloid leukemia (CML) patients in remission on stimulation with autologous leukemic cells and allogeneic lymphocytes (3-cell assay), were propagated in vitro in interleukin-2 (IL-2)-containing medium and periodic stimulation with autologous leukemic cells, for a period of 4 to 6 months. During this period, the cells were assessed for phenotype and for cytotoxic responses in a 4-h ⁵¹Cr release microcytotoxicity assay. The CTCs continued to show specific lysis of autologous leukemic cells and bone marrow (BM) cells. However, the nonspecific lysis of natural killer (NK) targets and the proportion of cells showing NK phenotype (HNK-1 antigen) increased progressively on cultivation in IL-2-containing medium. Therefore cells showing CD8 phenotype and specific cytotoxic function were segregated by cloning CTCs under the condition of limiting dilution in the presence of allogeneic feeder cells and IL-2-containing medium. Three cytotoxic T cell (CTL) clones expressing CD3+, CD8+, and HLA DR+ phenotypes were obtained from CTCs of 2 CML patients. These clonoid populations, maintained in IL-2-containing medium and periodic antigenic stimulation with autologous leukemic cells, showed specific lysis of autologous leukemic cells and BM cells even at lower (10:1) effector:target ratios. They did not kill K562 (erythroblastoid leukemic NK target cell line) cells and autologous phytohemagglutinin-induced blasts. These clones apparently functioned in an MHC-restricted manner as they did not lyse allogeneic CML cells which would also express a similar set of maturation antigens if sensitization was, as it appeared, against these antigens. Finally, interaction of autologous BM cells with CTL clones reduced the colony forming potential of BM cells only to the extent of 18%–30%. The results therefore indicate that such CTL clones can possibly be used in adoptive immunotherapy as they showed minimal BM toxicity.     

Insulin-specific human T cells. Epitope specificity, major histocompatibility complex restriction, and alloreactivity to a diabetes-associated haplotype

T cells from an insulin-treated diabetic (ML, HLA DR1, w6) were stimulated in vitro with insulin, cloned at limiting dilution, and examined for their fine specificity and genetic restriction. T cell lines (TCL) derived from beef insulin stimulation were highly specific for epitopes on beef insulin, whereas pork insulin stimulation generated T cells that recognized determinants shared with beef insulin. Included among TCL reactive with pork insulin is one line (P2/9) that is autoreactive with human insulin. Antigen-presenting cells of known HLA type and monoclonal antibodies directed at class II major histocompatibility complex antigens were used to confirm the role of HLA-DR in restricting the response of insulin immune T cells. No preference or determinant selection within the donor's haplotypes was identified because either DR1 or DRw6 antigen-presenting cells could present the A loop of beef insulin. A TCL that recognized the A loop of beef insulin in association with DR1 was also alloreactive to HLA DR3, or a molecule closely linked to it, in the absence of insulin. A second T cell clone with insulin specificity and alloreactivity was also derived by allo stimulation of the donor's cells with DR3+ cells. When tested with a series of DR3+ stimulator cells, the alloreactivity was directed at diabetes-associated haplotypes. These data show that the T cell repertoire for insulin of a single diabetic donor encompasses that of multiple inbred animal strains and includes fine specificity for one to two amino acids, recognition of autologous insulin, and cross-reactivity with an allogeneic major histocompatibility complex antigen.     

Differences in surface phenotype and mechanism of action between alloantigen-specific CD8+ cytotoxic and suppressor T cell clones

We have previously demonstrated that fresh CD8+ T cells proliferate in response to autologous, alloantigen-primed CD4+ T cells, and differentiate into Ts cells, which inhibit the response of fresh T cells to the primary allogeneic stimulator cell but not irrelevant stimulators. Although such Ts do not have discernible cytolytic activity, like classical cytotoxic T cells (Tc) they express CD3 and CD8 on their surface and function in a class I MHC-restricted manner. Our study was an attempt to compare the surface phenotype and mechanism of action of Ts and Tc clones derived from the same individual. Ts clones were generated from donor JK by repeated stimulation of CD8+ T cells with an autologous CD4+ T inducer line specific for an allogeneic lymphoblastoid cell line (LCL). These clones were noncytolytic for either the inducer line or the allogeneic stimulator LCL. Tc clones, generated by direct stimulation of JK CD8+ T cells with the same allogeneic LCL, mediated potent, alloantigen-specific cytolysis. All Tc clones were alpha, beta TCR+, CD3+, CD4-, CD8+, CD11b-, and CD28+. Ts clones were also alpha, beta TCR+, CD3+, and CD8+, but in contrast to Tc clones, Ts clones were CD11b+ and CD28-. When added to MLR both Ts and Tc clones inhibited the response of fresh JK CD4+ T cells to the original but not irrelevant allogeneic LCL. However, Ts inhibited the response of only those CD4+ T cells that shared class I)MHC determinants with the Ts donor, whereas Tc inhibited the response of CD4+ T cells from all responders, regardless of HLA type. Pretreatment of Ts clones with mAb to CD2, CD3, or CD8 blocked suppression, whereas similar pretreatment of Tc clones blocked cytotoxicity in 4-h 51Cr release assays but had no effect on Tc-mediated suppression of the MLR. These results suggest that both Ts and Tc clones can inhibit the MLR but they do so through different mechanisms. Moreover, the maintenance of distinct surface phenotypes on these long term clones suggests that Ts may be a distinct sublineage of CD8+ T cells rather than a variant of CD8+ Tc.     

Vaccinia virus-specific CD8+ cytotoxic T lymphocytes in humans.

Stimulation of human vaccinia virus immune peripheral blood mononuclear cells in vitro from vaccinia virus-immune donors with live vaccinia virus-infected autologous cells generated vaccinia virus-specific cytotoxic T lymphocytes (CTL) capable of lysing vaccinia virus-infected cells. We generated vaccinia virus-specific CD8+ clones and CD4+ CTL lines by limiting dilution from two donors by using peripheral blood mononuclear cells obtained 2 months or 4 years postrevaccination with vaccinia virus. These results demonstrate that vaccinia virus-specific CTL are generated as a result of immunization of humans with vaccinia virus and that both CD8(+)- and CD4(+)-specific T cells are maintained as memory cells.     

A cell population in nu/nu spleen can prevent generation of cytotoxic lymphocytes by normal spleen cells against self antigens of the nu/nu spleen.

Spleen cells from athymic nu/nu mice contain two kinds of physically separable active cells that can have very different effects on the generation of CL (cytotoxic lymphocytes) by normal LN cells in an in vitro response against allogeneic stimulator cells. They can provide an accessory cell required for the activation of CLP (cytotoxic lymphocyte precursor cells) which need not be H-2 identical to the CLP and will function normally even when H-2 identical to the stimulator cells. They can also provide a suppressor cell that prevents the activation of CLP that can recognize the H-2 of the nu/nu mouse. Thus, with A, B, and C to represent three H-2 differnt mouse strains, a culture containing CLP from strain A and nu/nu spleen cells from strain B or strain (A x B)F1 will produce CL against strain C or (A x C)F1 stimulator cells but not against strain B or strain (A x B)F1 stimulator cells unless the suppressor cell is first removed. It is proposed that the in vivo role of the suppressor cell in a normal mouse is to prevent the activation of CLP reactive against self.     

IL-7 regulation of cytotoxic lymphocytes: pore-forming protein gene expression, interferon-gamma production, and cytotoxicity of human peripheral blood lymphocytes subsets.

The effects of IL-7 on the generation of cytolytic human peripheral blood lymphocytes (PBL) were investigated. Induction of T-cell pore-forming protein (PFP) mRNA and cytotoxic potential by IL-7 was both slow and minor compared with that observed in IL-2-cultured T cells. IL-7 and suboptimal doses of IL-2 (10 U/ml) were found to costimulate PFP mRNA expression and cytotoxic potential in T cells. Clearly, however, both IL-7 and IL-2/IL-7 induced the PFP gene expression and cytotoxic potential of CD8+ T cells and not CD4+ T cells. In addition, neither monoclonal antibodies (mAb) to the p55 or p75 IL-2-receptor subunits had any effect upon IL-7 induction of CD8+ T-cell cytotoxicity, indicating that IL-7 induction of cytotoxic CD8+ T cells was IL-2 independent. IL-7 induction of CD3- large granular lymphocyte (LGL) and PB gamma delta T-cell cytotoxicity was also delayed and reduced compared with that effected by IL-2. IL-7 (10 or 1000 U/ml, 72 hr) enhanced the NK and LAK cytotoxic of LGL and PB gamma delta T cells. By contrast IL-7 or IL-2 augmented the redirected cytotoxic potential of PB gamma delta T cells, but not that of LGL, and neither lymphokine had any effect on constitutive PFP mRNA expression in either lymphocyte subset. In addition, IL-7 induction of LGL IFN-gamma production was weak and delayed compared with that effected by IL-2 and neither IL-2 nor IL-7 stimulated IFN-gamma production in PB gamma delta T cells. Therefore, overall the effects of IL-2 and IL-7 on various cytotoxic human PBL were qualitatively similar, but quantitatively and kinetically different.     

Specificity repertoire of splenic Lyt-2+/F23+ cytotoxic lymphocyte precursors from B6 mice

As revealed by flow cytometric analysis, about 30% of nylon wool nonadherent Lyt-2+ B6 spleen cells were F23+, i.e., were stained with the monoclonal antibody F23.1 directed against an allotypic T-cell receptor determinant. The specificity repertoire of splenic Lyt-2+/F23+ cytotoxic lymphocyte precursors (CLP) from B6 mice was investigated in a limiting dilution (LD) system designed to support clonal expansion in vitro of a representative fraction of this T-cell subset: in highly purified Lyt-2+ responder cells cocultured with mitomycin-treated F23 hybridoma cells in the presence of (recombinant) interleukin 2 under LD conditions, one out of three Lyt-2+/F23+ CLP gave rise to a functional cytotoxic T lymphocyte (CTL) clone. The split-well analysis of individual CTL populations demonstrated a clear-cut segregation of the lytic reactivities toward different allogeneic Con A blast targets. A large fraction of B6-derived CTL clones (3-10%) specifically lysed fully H-2 allogeneic (H-2k, H-2d), or H-2K mutant (bm1) targets. Self-reactive and allorestricted lytic patterns were not found.     

Differentiation from precursors in normal bone marrow of spontaneously cytotoxic cells showing anti-self-MHC specificity

Colonies containing spontaneously cytotoxic effector cells with specificity for target cells carrying self-MHC can be grown from normal mouse bone marrow (BM). BM was first depleted of nylon wool-adherent cells and was then cultured at low cell number (1 to 300 cells/culture) in multiple replicate microcultures in liquid culture medium containing supernatant from EL4 thymoma cells stimulated with PMA. Frequency of colony growth followed one-hit limiting dilution kinetics. Colonies contained lymphoid, myeloid, or both kinds of cells. About 5% of colonies contained self-specific cytotoxic effector cells. Analysis using the X chromosome-linked isoenzyme PGK-1 confirmed that colonies containing autoreactivity could be clonal. A factor other than IL 2, IL 3, or PMA appears to be required for the growth of autoreactive colonies. Similar colonies, both with and without autoreactive effector cells, could also be grown from the BM of athymic nude mice with frequencies and cytotoxic activities directly comparable to those found for normal BM. C.B-17 scid mice lack both B and T cells, apparently due to a block in the development of lymphoid stem cells. Colonies could be grown with comparable frequency from their BM, but these colonies lacked both lymphoid cells and spontaneous cytotoxic activity. Evidence is presented against the self-reactive effector cells being NK cells, macrophages, or mature T cells. It is speculated that they represent an early stage of the T cell differentiation pathway.     

A murine thymocyte clone expressing gamma delta T cell receptor mediates natural killer-like cytolytic function and TH1-like lymphokine production

The murine CD4- CD8- (double negative, DN) thymocyte cell line and clones expressing T cell receptor gamma delta chains in association with CD3 complex have been established and characterized. This line and a representative clone (DN7.12.11) which appear to derive from the minor population of CD3+ DN thymocytes can be stimulated to proliferate and to produce lymphokines by anti-CD3 or anti-Thy-1 antibodies or calcium ionophore plus phorbol ester. Autocrine proliferation is dependent on binding of interleukin (IL)2 to functional IL2 receptor. Upon stimulation, these cells produce IL2 and IFN-gamma but not IL4, resembling conventional CD4+ TH1 cells in this regard. The cloned line also mediates spontaneous cytolysis against a variety of tumor targets without regard for the presence of conventional major histocompatibility complex molecules on the target cell surface. Blocking and modulation experiments suggest that target recognition by the gamma delta/CD3 complex is not involved in the spontaneous lysis, resembling natural killer (NK) cells. The results suggest that gamma delta +DN T cells are able to have mature functions such as NK-like cytotoxicity and lymphokine secretion as peripheral gamma delta +T cells. They also provide a possible role of gamma delta + DN thymocytes in establishing a intrathymic environment for differentiation and selection of alpha beta-expressing T cells.     

T helper cells in cytotoxic T lymphocyte development: role of L3T4(+)-dependent and -independent T helper cell pathways in virus-specific and alloreactive cytotoxic T lymphocyte responses

I have compared the requirements for T helper (Th) cell function during the generation of virus-specific and alloreactive cytotoxic thymus (T)-derived lymphocyte (CTL) responses. Restimulation of vesicular stomatitis virus (VSV)-immune T cells (VSV memory CTLs) with VSV-infected stimulators resulted in the generation of class I-restricted, VSV-specific CTLs. Progression of VSV memory CTLs (Lyt-1-2+) into VSV-specific CTLs required inductive signals derived from VSV-induced, Lyt-1+2- Th cells because: (i) cultures depleted by negative selection of Lyt-1+ T cells failed to generate CTLs; (ii) titration of VSV memory CTLs into a limiting dilution (LD) microculture system depleted of Th cells generated curves which were not consistent with a single limiting cell type; (iii) LD analysis of VSV memory CTLs did produce single-hit curves in the presence of Lyt-1+2- T cells sensitized against VSV; and (iv) monoclonal anti-L3T4 antibody completely abrogated CTL generation against VSV. Similar results were also obtained with Sendai virus (SV), a member of the paramyxovirus family. The notion that a class II-restricted, L3T4+ Th cell plays an obligatory role in the generation of CTLs against these viruses is also supported by the observation that purified T cell lymphoblasts (class II antigen negative) failed to function as antigen-presenting cells for CTL responses against VSV and SV. T cell lymphoblasts were efficiently lysed by class I-restricted, anti-VSV and -SV CTLs, indicating that activated T cells expressed the appropriate viral peptides for CTL recognition. Furthermore, heterogeneity in the VSV-induced Th cell population was detected by LD analysis, suggesting that at least two types of Th cells were required for the generation of an anti-VSV CTL response. VSV-induced Th cell function could not simply be replaced by exogenous IL-2 because this lymphokine induced cytotoxic cells that had the characteristics of lymphokine-activated killer (LAK) cells and not anti-viral CTLs. In contrast, CTL responses against allogeneic determinants could not be completely blocked with antibodies against L3T4 and depletion of L3T4+ cells did not prevent the generation of alloreactive CTLs in cultures stimulated with allogeneic spleen cells or activated T cell lymphoblasts. Thus, these studies demonstrate an obligatory requirement for an L3T4-dependent Th cell pathway for CTL responses against viruses such as VSV and SV; whereas, CTL responses against allogeneic determinants can utilize an L3T4-independent pathway.