Ontogeny of diversity in the receptor repertoire of murine cytotoxic lymphocytes. I. Comparison of recognition patterns of activated T cells of B10.D2 and B10.BR mice of different ages and analysis of changes in F1 hybrid and bone marrow radiation chimeras

Cytotoxic T lymphocyte precursors (CTLp) from B10.D₂, B10.BR, and (B10.D₂ × B10.BR)F₁ mice of different ages have been activated by irradiated “wild-type” H2K^b antigens (from B10.A(3R) mice) under limiting dilution conditions such that cytotoxic cells in responder wells represent the progeny of a single CTLp. After expansion in the presence of IL₂ and irradiated C57B1/6Kha spleen cells the contents of each well were divided into equal aliquots and tested for lysis with a panel of selected H2K^b mutant targets. As has been observed for the murine B-cell repertoire, there seems to be substantially more homogeneity in the neonatal allo-T-cell repertoire than in the adult mouse. Furthermore, while the adult F₁ repertoire is markedly distinct from that expressed by either parental T-lymphocyte pool, the neonatal repertoire apparently reflects a relatively accurate composite of each parental population, codominantly expressed. These data, combined with studies of adult bone marrow radiation chimeras, suggest that during development of the adult T-lymphocyte repertoire from the initially expressed restricted (germ-line?) recognition specificities, somatic diversification driven by environmental (MHC?) antigenic determinants occurs. In addition to this ontogenetic development, during senescence another “regulation” of the repertoire becomes apparent, and once more the heterogeneity of recognition specificities is diminished. Nevertheless, the homogeneity seen in aged mice does not represent a simple return to the expression of the limited number of allo-specificities encoded in the neonatal repertoire.     

Peripheral (somatic) expansion of the murine cytotoxic T lymphocyte repertoire. I. Analysis of diversity in recognition repertoire of alloreactive T cells derived from the thymus and spleen of adult or aged DBA/2J mice

Cytotoxic T lymphocyte precursors (CTLp) in the spleen or thymus of individual adult (8 to 10 wk) or aged (greater than 20 mo) DBA/2J mice have been activated by irradiated H-2Kb antigens under limiting dilution conditions such that cytotoxic cells in responder wells result from stimulation of a single CTLp. After division into several equal samples and expansion in the presence of IL 2 and more irradiated H-2Kb stimulators, the contents of replicate individual wells were tested for their ability to lyse a panel of selected H-2Kb mutant targets. The heterogeneity within a given age group, and the similarity of CTLp repertoires between different age groups were then compared for splenic and thymic CTLp repertoires. Our data indicate a far greater mouse-to-mouse variation for the splenic CTLp repertoire of aged mice compared with young mice, despite the greater heterogeneity of the repertoire in the latter case. Less difference was seen for the thymic CTLp repertoire. When we studied the correlation between the repertoires present in the thymus and spleen within a given age group, it seemed that the most striking difference in aged mice was a loss of systematic expansion of the early appearing thymic CTLp repertoire. These findings are discussed in terms of a two-stage model of T cell differentiation.     

Role of natural killer (NK) cells in the production of the murine T lymphocyte allorecognition repertoire

Limiting dilution cultures of alloreactive (anti-H2Kb) CTL were established from thymocyte or spleen cell pools of C3H/HeJ and their congenic bg/bg partner, or of SJL/J and their congenic bg/bg partner. CTL populations in these cultures were assayed for cross-reactive lysis of a panel of splenic Con A blasts of H2Kbm mutant mice. There was some slight elevation of frequency of CTLp in the thymocyte lymphoid pool of bg/bg mice; more strikingly, the repertoire of anti-H2Kb specificities was clearly altered in both strains in the bg/bg animals. There was apparently an increased diversity (more specificities represented at higher frequencies) in the thymocyte pool and a decreased diversity in the spleen cell CTLp pool in animals with the bg/bg marker. Similar shifts in the allorecognition repertoire of normal C3H/HeJ mice were produced by inoculation of neonatal mice with a rabbit anti-NK heteroantibody (antiasialo GM1). Preabsorption of this serum such that it lost anti-NK activity also abolished this effect of in vivo neonatal injection. Furthermore, injection of bg/bg bone marrow-reconstituted C3H/HeJ (bg/+) mice with a C3H spleen cell-derived NK line also caused a shift in the allorecognition repertoire toward that seen in the normal littermate control animals.     

Alteration of allospecific t-cell receptors after differentiation from prethymic precursor cells in semiallogeneic environments

Murine bone marrow cells (strain A) have been allowed to differentiate in vivo in syngeneic (A) or semiallogeneic hosts (A × B) to produce mature splenic T lymphocytes. After stimulation of these cells with irradiated allogeneic (C) spleen cells in tissue cultures, the cytotoxic T-cell blasts (CTL) were purified by velocity sedimentation and used to immunize (A × C) F₁ hybrid mice, to produce antisera recognizing the receptor structure (for C) on the relevant A cytotoxic cells (and their precursors). Using these sera we have been able to show that the T-cell receptor for alloantigen C on strain A cytotoxic precursor lymphocytes (CTLp) seems to differ according to the host environment in which those T cells differentiate from immature bone marrow precursors.     

Peripheral (somatic) expansion of the murine cytotoxic T lymphocyte repertoire. II. Comparison of diversity in recognition repertoire of alloreactive T cells in spleen and thymus of young or aged DBA/2J mice transplanted with bone marrow cells from young or aged donors

Lethally irradiated (1000 R whole body) DBA/2J mice of 10 wk or 20 mo of age were repopulated with anti-Thy-1.2-treated DBA/2J bone marrow cells of 10-wk- or 20-mo-old donors. Sixty days post-transplant, limiting dilution cultures of the spleen and thymus cell population of individual mice (for each group) were examined to assess the within-group and between-group diversity in the anti-H-2Kb allo-recognition repertoire. Our data are consistent with a significant expansion of the CTLp repertoire taking place in the periphery, beyond the early appearing specificities present in the thymus. Moreover, comparison of the repertoires in young recipients of young or aged marrow, or in aged recipients of young or aged marrow, support the notion that there is a defect in the peripheral environment of aged mice that results in altered expansion of the thymic CTLp repertoire. In addition, there is an intrinsic difference in bone marrow precursor cells of CTLp in aged mice that is revealed only in an aged environment.     

Mutations in H-2K b influence the specificity of alloreactive effector cells included in the repertoire of H-2D b -restricted cytotoxic T lymphocytes against Moloney leukemia virus

Moloney leukemia virus-specific cytotoxic T lymphocytes (CTL), generated by secondary in vitro stimulation of spleen cells with syngeneic virus-infected cells, frequently lysed not only syngeneic virus-infected cells, but also noninfected allogeneic target cells. This phenomenon was studied with B6(H-2 ^b ) responder cells and a series of H-2K ^b -mutant responder cells. Thus, B6 Moloney-specific CTL lysed noninfected K ^b -mutant cells, but not B6 cells, whereas K ^b -mutant Moloney-specific CTL lysed noninfected B6 cells and not noninfected cells of the same mutant. Cold-target-inhibition studies showed that the CTL reactions against different allogeneic cells were mediated by different subpopulations of virus-specific CTL: lysis of allogeneic target cells was fully inhibited only by the same allogeneic and by syngeneic virus-infected cells, but not by another allogeneic cell, also lysed by the same effector-cell population. Lysis of syngeneic virus-infected cells could not be inhibited by allogeneic target cells. These data imply that a minority of virus-specific CTL shows cross-reactivity with a given allogeneic target cell. It is concluded that limited amino acid substitutions in the K^b molecule alter the repertoire of Moloney virus-specific CTL, as reflected in alloreactive CTL populations, even though the virus-specific CTL response. of B6 and all K ^b mutants is mainly D^b-restricted. Thus, the development of tolerance to self class-I major histocompatibility complex (MHC) molecules affects the repertoire of self-restricted cytotoxic T cells.     

Genetic control of “natural” killer lymphocytes in the mouse

Spleens from normal young mice contain lymphocytes that can kill certain in vitro grown Moloney lymphoma lines in a⁵¹Cr-release cytotoxicity test. A lymphoid cell without detectable T- or B-cell markers was previously shown to be responsible. Killing activity shows a marked dependence on the genotype of the donor mouse. When tested against a YAC line of strain A origin maintained in vitro spleens of A, A.CA, and A.SW mice had low activity, whereas CBA, C3H, C57L, and C57Bl spleens were highly active. In semisyngeneic F₁ crosses with strain A as one parent, reactivity resembled the opposite parental strain. Thus, (A×CBA)F₁, (A×C3H)F₁, (A×C57L)F₁, and (A×C57Bl)F₁ were reactive, whereas A×A.CA showed no significant activity. Analysis of the reactivity in (A×C57Bl)F₁×A backcross mice suggests that multiple genes are involved. Preliminary linkage analysis suggests at least oneH-2 linked factor. Another gene appears to be linked to theB (black) locus.     

The origin of strain-specific differences in the specificity repertoires of murine cytolytic T lymphocytes

Previous studies, in which fine specificity analysis of CTL clones specific for the H-2Kb alloantigen was used to identify and distinguish the receptor of each clone, demonstrated that the composition of the CTL repertoire is influenced by at least two polymorphic genetic regions, the MHC and the IgH. By using double parent radiation chimeras of the type A + B----(A X B)F1, in which A and B differ at the MHC, it was found that the specificity repertoires of A and B, which normally differ in conventional mice of these strains, were very similar when CTLp were obtained from double parent chimeras. Therefore, the influence of MHC on repertoire was attributable to the environment in which the T cell developed rather than to an intracellular event. In the current study, this same strategy was used to determine whether IgH exerts its influence on the CTL repertoire at the environmental level as well. Double parent chimeras where constructed by using stem cells of BALB/c and B10.BR origin. Not only do these cells differ at the MHC, they also differ polymorphically at a large number of genetic regions including IgH and possibly T alpha structural genes. The results indicated that despite these genetic differences, the specificity repertoires of CTLp representative of the two different genotypes in the chimeras were very similar. Therefore, T cell repertoire differences that arise due to IgH polymorphism are determined by the developing environment. Additionally, these results suggest further that any genetic polymorphism which may exist within the T alpha gene complexes of these strains does not result in differences that can be detected within the CTL response to the Kb alloantigen.     

Depressive effect of silica particles on F1 hybrid anti-parent cell-mediated lympholysis induced in vitro.

The role of macrophage-like cells in the in vitro generation of specific B6D2F₁ hybrid anti-parental B6 cytotoxic T lymphocytes (CTL) was investigated by means of silica particles (SIL). Depression of this cell-mediated response resulted from the addition of 12.5 or 25 μg of SIL to mixed F₁/parent spleen cell cultuers, and full abrogation resulted from the addition of 125 or 250 μg of SIL. The treatment was effective if applied during the first 48 hr of culture. When treatment was delayed, responsiveness did not decline nor did the lytic function of mature CTL exposed to SIL. Moreover, no depression of the anti-allogeneic cell mediated response resulted from the addition of 250 or 500 μg of SIL to mixed F₁/allogeneic instead of F₁/parent spleen cell cultures. Abrogation of the F₁ hybrid anti-parent response was attributed to SIL-induced impairment of an accessory function presumably exerted by macrophage-like cells during the early phases of responder T cell activation. If so, the F₁ anti-parent response was considerably more dependent than the allogeneic response on the integrity of accessory cells. Injection of 5 mg of SIL to donors of responder cells likewise resulted in loss of F₁ anti-parent and occasionally of anti-allogeneic in vitro responsiveness. This in vivo effect of SIL was prevented by pretreating mice with the lysosomal stabilizer poly-2-vinylpyridine N-oxide. Because unresponsiveness induced in vivo was not selective for F₁ anti-parent responses and lasted for up to 10 days, it may be attributable not only to depletion of accessory macrophages by SIL but also to the induction of suppressor macrophages.     

Acquisition of an anti-idiotypic cytotoxic T lymphocyte repertoire in B cell-transferred or tetraparental bone marrow chimeric mice

In previous studies we showed that major histocompatibility complex-restricted cytotoxic T lymphocytes (CTL) specific for the cross-reactive idiotype (CRI) of MOPC-104E myeloma protein could only be induced in BALB/c or BAB-14 mice which have the ability to produce the CRI, but not in C.AL-20 or C.B-20 mice which have no ability to produce the CRI. The strong correlation between CRI-specific CTL responder strains and CRI producers supports the idea that the VH gene products are intrinsic primary antigenic stimuli for the generation of the anti-idiotypic CTL. To investigate the role of B lymphocytes in the selection of T lymphocyte repertoire, the purified B cells of CRI producer strains were repeatedly injected into anti-CRI CTL nonresponder neonatal mice. CRI-specific CTL activity was successfully induced in the CRI nonproducer mice only when they were exposed to CRI producer strain B lymphocytes from neonatal life. When the CTL nonresponder adult mice received CRI producer B lymphocytes, the nonresponder phenotype was not changed into the responder phenotype. Inducibility of CRI-specific CTL was also analyzed in tetraparental bone marrow chimeras. When CRI nonproducer bone marrow cells repopulated along with CRI producer bone marrow cells, the anti-CRI CTL of CRI nonproducer origin were generated. Adaptive differentiation of haplotype preference was also observed. When these observations are taken collectively, we see that the anti-idiotypic T lymphocyte repertoire is not a genetically determined one, but rather that the repertoire of T lymphocytes strongly depends on the postnatal selection process through the intrinsic idiotypic repertoire of B lymphocytes, i.e., internal images.     

Influence of the H-2 u haplotype on immune function in F1 hybrid mice

Recently we reported that antigen-primed T cells from (H-2 ^u × H-2 ^s)F₁ and (H-2 ^u × H-2 ^q)F₁ mice responded poorly in vitro to antigen in the context of antigen-presenting cells of the non-H-2 ^u parent. It was suggested that this effect might be due to unbalanced expression of parental antigens in the F₁ hybrid with the result that the non-H-2^u A antigens were greatly reduced or absent in these mice. If this were the case, non-H-2^u Ia-A cells might be expected to stimulate a mixed lymphocyte reaction (MLR) when cultured with Fl responder cells. When tested, (SJL × PL)F₁ responder cells reacted strongly to SJL stimulator cells. There was no significant reaction to PL stimulator cells. The use of major histocompatibility complex (MHC) congenic mice showed the stimulatory antigens to be associated with the MHC. The MLR could be blocked significantly by monoclonal A-specific antibody of the appropriate specificity. When a monoclonal antibody reactivewith a private epitope associated with A^s was used to probe for the presence of A^s on the surface of (SJL × PL)F₁ spleen cells, no antigen could be detected, indicating loss or alteration of this antigen. These findings suggest that an alteration of the expression of the parental A^s molecule may be responsible for this phenomenon.Abbreviations used in this paper APC antigen-presenting cells - BSS balanced salt solution - CTL cytotoxic T lymphocyte - IL-2 interleukin-2 - MHC major histocompatibility complex - MLR mixed lymphocyte reaction - T₂ suppressor T lymphocyte     

Clones of alloreactive T cells

We have developed a method which allows us to clone and reclone primed responder T cells derived from serially restimulated murine mixed lymphocyte cultures. We have derived clones from two such mixed lymphocyte cultures, A anti-B6 [A(B6)] and A anti-(B6XA)F₁ [A(B6A)]. In the A (B6) system, we have isolated clones which can be stimulated by B6 but not by (B6XA)F₁ cells. This implies the presence of a unique parental H-2^b MLR determinant which is absent on semi-allogeneic (B6XA)F₁ cells. In the A(B6A) system, we have isolated clones which can be stimulated by (B6XA)F₁ cells but not by B6 cells. This confirms our previous observation on the presence of unique hybrid MLR stimulating determinants on (B6XA)F₁ cells. Many of the “clones” derived primarily from soft agar seem to be contaminated and contain several different sets of primed responder cells with different reactivity patterns. Experiments in which we subcloned cells exhibiting selected reactivity patterns from such contaminated primary clones suggested that a T-cell growth factor or accessory cell is required for proliferation in soft agar following alloantigen recognition by primed responder cells.     

Specificity and frequency of primary anti-HLA cytotoxic T lymphocytes in normal and HLA-B27.2-, HLA-B27.5-, and HLA-Cw3-transgenic mice. A transgenic model for MHC xenoantigen recognition

Previous studies have shown that the lymphocytes of naive mice produce a strong primary CTL responses in vitro to human MHC class I Ag presented by HLA-transgenic mouse (TGM) cells. A limiting dilution (LD) assay was used to analyze this xenoreactive CTL repertoire in mice. Frequencies of HLA class I-specific CTL precursors (CTLp) were estimated in naive normal and HLA-B27.2-, -B27.5- and HLA-Cw3-double TGM (i.e., mice expressing HLA and human beta 2-microglobulin (hu beta 2m]. The xenoreactive CTLp frequencies were compared to frequencies of CTLp to H-2 alloantigens estimated in naive normal mice. The results showed that the frequencies of HLA class I-specific CTLp are comparable with those of alloreactive CTLp. This overlap in CTLp frequencies suggests that HLA class I xenoantigens are recognized by primary mouse CTL as allelic variants of H-2K and H-2D. This was confirmed in split well analysis by the observation that the xenoreactive response was not restricted by self-MHC of the responding mouse. Thus, primary HLA class I-specific mouse CTL clones recognized their target Ag regardless of whether they were expressed on H-2-mismatched mouse cells or on human cells. The frequencies of HLA class I-specific CTLp in HLA-TGM were comparable to those in normal mice. We propose that MHC allo- and xenoreactive CTL responses are not caused by the activation of CTLp specific for self-MHC plus peptide but to the activation of CTLp recognizing MHC allo- and xenoantigens directly or as peptides presented by their native MHC molecules.     

Mechanism of nonresponsiveness to AKR/Gross leukemia virus in AKR.H-2b:Fv-1b mice. An analysis of precursor cytotoxic T lymphocyte frequencies in young versus moderately aged mice

As young adult AKR.H-2b:Fv-1b mice reach about 9 wk of age, they begin to develop a nonresponsiveness to AKR/Gross leukemia virus. Unlike young mice that are responders, moderately aged AKR.H-2b:Fv-1b mice, after immunization and secondary in vitro restimulation in bulk culture with AKR/Gross virus induced tumors, can not generate anti-AKR/Gross virus-specific CTL. The mechanism of conversion to nonresponsiveness in moderately aged AKR.H-2b:Fv-1b mice is not understood, but it is correlated with increased expression of endogenous ecotropic viral antigens. Our present investigation focuses on determining the frequency of anti-AKR/Gross virus precursor CTL in AKR.H-2b:Fv-1b mice as a function of age. This was achieved by performing limiting dilution cultures of immune spleen cells obtained from young and moderately aged AKR.H-2b:Fv-1b mice. Although spleen cells obtained from immune moderately aged mice can not differentiate in bulk cultures into anti-AKR/Gross virus-specific CTL, there was no evidence of substantially decreased frequencies of virus-specific precursor CTL, relative to precursor CTL frequencies observed in young responder AKR.H-2b:Fv-1b mice.     

Homology between an alloantigen and a self MHC allele calibrates the avidity of the alloreactive T cell repertoire independent of TCR affinity

The self-restricted T cell repertoire exhibits a high frequency of alloreactivity. Because these alloreactive T cells are derived from the pool of cells selected on several different self MHC alleles, it is unknown how development of the alloantigenic repertoire is influenced by homology between a self MHC allele and an alloantigen. To address this, we used the 2C transgenic TCR that is selected by K(b), is alloreactive for L(d), and cross-reacts with L(q). L(q) is highly homologous to L(d) and binds several of the same peptide ligands, including p2Ca, the peptide recognized by 2C. We find that L(d)/p2Ca is a high avidity agonist ligand, whereas L(q)/p2Ca is a low avidity agonist ligand for 2C T cells. When mice transgenic for the 2C TCR are bred to L(q)-expressing mice, 2C(+) T cells develop; however, they express lower levels of either the 2C TCR or CD8 and require a higher L(d)/p2Ca ligand density to be activated than 2C(+) T cells selected by K(b). Furthermore, the 2C T cells selected in the presence of L(q) fail to detect L(q)/p2Ca complexes even at high ligand density. Thus, despite possessing the identical TCR, there is a functional avidity difference between 2C(+) T cells selected in the presence of L(q) vs K(b). These data provide evidence that homology between the selecting ligand and an alloantigen can influence the avidity of the T cell repertoire for the alloantigen, and suggest that thymic selection can fine tune T cell avidity independent of intrinsic TCR affinity.     

Cellular events during radiation-induced thymic leukemogenesis in mice: abnormal T cell differentiation in the thymus and defect of thymocyte precursors in the bone marrow after split-dose irradiation

Cellular events during the development of thymic lymphomas in young B10.BR mice given leukemogenic split-dose irradiation were studied by examining the differentiation of functional T lymphocyte precursors in the regenerating thymus. It was found that leukemogenic radiation treatment resulted in a sustained depression of the level of thymic cytotoxic T lymphocyte precursors (CTLp) and of mixed lymphocyte reactivity of thymus cells when assessed between 1 and 4 mo after irradiation, in spite of the fact that the total number of thymocytes was restored to the normal level within 2 mo and continued to increase thereafter. In vitro mixing studies of normal thymocytes with thymus cells from split-dose irradiated mice provided no evidence for active suppression as a mechanism for this depressed activity. The ability of bone marrow cells from split-dose irradiated mice to regenerate the thymus and to differentiate into functional CTLp was examined by use of supralethally irradiated Thy-1 congenic recipients. Reconstitution of supralethally irradiated B10.BR Thy-1.2 mice with normal bone marrow from B10.BR Thy-1.1 mice resulted in the complete repopulation of host-thymus with donor-derived cells when assessed at 4 wk after reconstitution. Lymphocytes from the regenerating thymus of these animals were shown to contain high levels of CTLp which were donor-derived. On the other hand, when the recipient mice were reconstituted with bone marrow cells from donor mice which had been split-dose irradiated 1 mo earlier, regeneration of the recipient thymus was severely depressed when assessed at 4 wk to 3 mo after reconstitution. Although variable but small numbers of donor-derived Thy-1+ cells were detected, CTL activity for alloantigen could not be induced in these donor-derived cells. The results suggest that T cell precursors derived from split-dose irradiated donor mice were unable to undergo active proliferation and differentiation into functional CTLp. The significance of these findings on radiation-induced thymic leukemogenesis is discussed.     

Cytotoxicity of autosensitized lymphocytes restricted to the H-2K end of targets

Lymphocytes from rodents cultured on syngeneic fibroblasts become cytotoxic against syngeneic but not against allogeneic target cells. We investigated whether known antigens are involved in the phenomenon and the data indicate that H-2 antigens must be shared between sensitizing fibroblasts and responder lymphocytes to generate autocytotoxic cells. Furthermore, the cytotoxicity of autosensitized lymphocytes is restricted to target cells identical with respect to theK and/orI regions. F₁ hybrid lymphocytes cultured on parental fibroblasts develop cytotoxicity towards sensitizing cells. In contrast, parental lymphocytes cultured on F₁ hybrid fibroblasts will not damage the F₁ cells, although they are cytotoxic against both syngeneic and allogeneic parental cells. In addition, parental or F₁ hybrid lymphocytes cultured on parental fibroblasts are not cytotoxic against F₁ hybrid target cells. Fibroblasts heterozygous for theK end only, are also resistant to the cytotoxic action of such lymphocytes. Thus it seems that H-2 antigens, specifically theK end, antigens have a significant role in the phenomenon of autosensitization.     

Haplotype preference in lymphocyte differentiation. II. F1 hybrid helper T cells generated with antigen-bearing parental macrophages can cooperate with B lymphocytes of either parent.

Carrier-specific helper T cells were generated in F₁ hybrid mice by either conventional immunization procedures or by repeated immunizations with antigen-bearing macrophages derived from either F₁ or parental donors. The F₁ helper T cells generated in these various ways were then analyzed for their capacities to help hapten-primed B lymphocytes derived from each of the two parental strains as well as from F₁ donors in the development of secondary anti-hapten antibody responses. These analyses were conducted using two different types of in vivo assay systems as well as a totally in vitro system. Under all circumstances, helper T cells from F₁ mice, primed either in conventional fashion or with antigen bearing parental or F₁ macrophages, were capable of interacting effectively with B lymphocytes of each parent and of F₁ origin. Moreover, in the case of F₁ helper cells primed with antigen-bearing parental macrophages, there was no evidence of preferential helper activity for parental B lymphocytes corresponding to the type of macrophage used for sensitization; this was true irrespective of whether in vivo or in vitro assay systems were employed. The relevance of these findings and others which are either similar to, or discordant with, them to the general question of genetic restrictions in macrophage-T lymphocyte interactions is discussed.     

CD40 Ligand-Mediated Interactions Are Involved in the Generation of Memory CD8+ Cytotoxic T Lymphocytes (CTL) but Are Not Required for the Maintenance of CTL Memory following Virus Infection

CD8⁺ cytotoxic T lymphocytes (CTL) play a key role in the control of many virus infections, and the need for vaccines to elicit strong CD8⁺ T-cell responses in order to provide optimal protection in such infections is increasingly apparent. However, the mechanisms involved in the induction and maintenance of CD8⁺ CTL memory are currently poorly understood. In this study, we investigated the involvement of CD40 ligand (CD40L)-mediated interactions in these processes by analyzing the memory CTL response of CD40L-deficient mice following infection with lymphocytic choriomeningitis virus (LCMV). The maintenance of memory CD8⁺ CTL precursors (CTLp) at stable frequencies over time was not impaired in CD40L-deficient mice. By contrast, the initial generation of memory CTLp was affected. CD40L-deficient mice produced lower levels of CD8⁺ CTLp during the primary immune response to LCMV than did wild-type controls, despite the fact that the LCMV-specific effector CTL response of CD40L-deficient mice was indistinguishable from that of control animals. The differentiation of naïve CD8⁺ T cells into effector and memory CTL thus involves pathways that can be discriminated from each other by their requirement for CD40L-mediated interactions. Expression of CD40L by CTLp themselves was not an essential step during their expansion and differentiation from naïve CD8⁺ cells into memory CTLp; instead, the reduction in memory CTLp generation in CD40L-deficient mice was likely a consequence of defects in the CD4⁺ T-cell response mounted by these animals. These results thus suggest a previously unappreciated role for CD40L in the generation of CD8⁺ memory CTLp, the probable nature of which is discussed.     

Induction of TNP-specific cytotoxic T lymphocyte memory in vivo in the absence of T helper cell activity

The question of whether TH cells are required for the priming of CTL precursors (CTLp) in vivo was studied by using Txbm mice (Thymectomized, irradiated, and stem cell-reconstituted mice). In these mice, TNP-specific CTL could be induced in vitro with TNP-coupled spleen cells only if the cultures were supplemented with an IL 2-containing supernatant (ConAsup). In contrast to normal mice, TNP-specific Lyt-2-TH cells could not be induced by skin painting with trinitrochlorobenzene (TNCB) (as tested by the ability to help CTL formation from thymocyte or normal spleen precursors). These data confirm previous findings that Txbm mice possess CTLp but that their TH compartment is deficient. TNCB skin painting had, however, a clear priming effect on the CTLp population: spleen cells from TNCB-painted mice could give rise to specific CTL with a lower amount of ConAsup than spleen cells from unprimed mice. In addition to this, priming changed the CTLp so that stimulation with lightly coupled cells (0.1 mM trinitrobenzene sulfonic acid [TNBS] instead of 10 mM TNBS) became effective. These changes took place without a significant increase in the frequency of TNP-specific CTL precursors. The data obtained are consistent with the concept that at least with some antigens, CTLp proliferation (clonal expansion), which is probably caused by activated TH cells, is not required for the induction of immunologic memory in vivo.