The myelin basic protein-specific T cell repertoire in Lewis rats: T cell receptor diversity is influenced both by intrathymic milieu and by extrathymic peptide presentation

In the Lewis rat, the T lymphocyte response to guinea pig myelin basic protein (MBP) is focused almost exclusively on epitopes nested in the MBP peptide sequence p68 – 88, and is dominated by T cell receptors (TCR) using Vβ8.2 gene elements, together with short N(D)N regions. Here we analyzed MBP-specific TCR from Lewis T cells differentiating in chimeric thymuses of Lewis rat/SCID mouse chimeras, in the absence of an intact rat thymic microen vironment (SCID_FL mice). In these T cells, the TCR Vβ repertoire is broad, N(D)N regions are significantly longer, and contain regular rates of template-independent N nucleotides. In striking contrast, a Vβ8.2 biased TCR repertoire and few N-region inserts are seen in p68 – 88-specific, Lewis rat-derived T cells differentiating in the complete rat thymic microen vironment provided by chimeric SCID mice bearing embryonic Lewis thymus grafts (SCID_FL/FT mice). A T cell repertoire resembling the one in SCID_FL mice is used by T cells of intact Lewis rats following immunization with a truncated epitope of MBP, p69 – 86. Also this selection generates a broad TCR Vβ pattern with long N(D)N regions, and higher numbers of N nucleotides. These results show that both intrathymic repertoire selection, and extrathymic peptide priming exert profound effects on the TCR usage in the anti-MBP response of Lewis rats.     

Encephalitogenic,myelin basic protein-specific T cells from naive rat thymus: preferential use of the T cell receptor gene Vβ8.2 and expression of the CD4− CD8− phenotype

Using a primary limiting dilution approach to generate T cell lines, we compared myelin basic protein (MBP)-specific T cell clones from naive unprimed Lewis rat thymuses with the corresponding T cell repertoire of primed rats. We found that in the naive thymus repertoire MBP-specific, encephalitogenic T cell clones preferentially use T cell receptor Vβ8.2 genes, along with CDR3 sequences typical for the primed Lewis anti-MBP response. In contrast to T cells from primed immune organs, which all display the CD4⁺ CD8^? phenotype, the majority of naive thymus-derived T cell clones expressed reduced levels of the CD4 co-receptor. Some clones were completely CD4^?CD8^?, while others included CD4^? CD8^? subpopulations along with CD4⁺CD8^? T cells. In the one mixed population examined in detail, the CD4^?CD8^? and CD4⁺CD8^? T cell subpopulations used a T cell receptor with identical β chain sequence. The data suggest that in the Lewis rat the biased T cell receptor gene usage by encephalitogenic T cells is a property of the natural thymic T cell repertoire, possibly as a consequence of positive selection. The unusually low expression of CD4 in the major histocompatibility complex class II-restricted autoreactive T cells could be related to their escape from negative selection within the thymus.     

Expression of T cell receptor V gamma 5 in the adult thymus of irradiated mice after transplantation with fetal liver cells

T cell receptor (TcR) gamma/delta displays limited diversity and its diversity is distinct in different stages of ontogeny and in different anatomical sites. The V gamma 5 and V delta 1 gene products are preferentially expressed on the early fetal thymocytes and on Thy-1+ dendritic epidermal cells, whereas the V gamma 4 and V delta 5 gene products are abundantly expressed on the adult thymocytes. To elucidate whether the developmentally ordered appearance of thymocytes expressing TcR gamma/delta is dependent on the source of T cell precursors or is controlled by the thymic environment where T cells develop, we compared the expression of V gamma 5 on the early-appearing thymocytes between irradiated mice after transplantation with fetal liver (FL) cells and those after transplantation with bone marrow (BM) cells. Sequential appearance of thymocyte subpopulations was observed in the thymus of radiation FL chimeras similar to that seen in radiation BM chimeras. A substantial number of thymocytes bearing V gamma 5 appeared in the thymus at the early stage of radiation FL chimeras, whereas few, if any, of such V gamma 5-bearing thymocytes were detected in the thymus at any stage of radiation BM chimeras. These results suggested that the ordered expression of V gamma repertoire may depend on the origin of the T cell precursors but not on the thymic environment.     

Rat stem cells developing in irradiated SCID mice fail to become tolerized and cause lethal graft-versus-host disease.

Graft-versus-host disease (GVHD) is prominent in irradiated hosts given whole allogeneic bone marrow cells but is generally undetectable when T-depleted stem cells are transferred; under these conditions, the mature T cells arising from the donor stem cells become tolerant to host antigens and fall to cause GVHD. We show here that a radically different situation can occur when hosts are reconstituted with xenogeneic stem cells. When lightly irradiated, adult C.B-17 SCID mice injected with Lewis rat fetal liver (FL) cells show near-total repopulation with rat-derived lymphohemopoietic cells, including T and B cells. However, in marked contrast to chimeras prepared with allogeneic mouse FL cells, rat FL-->SCID chimeras develop severe and often lethal chronic GVHD. In these rat-->mouse chimeras, the rat T cells show limited tolerance to host mouse antigens as determined by various parameters including mixed lymphocyte reaction and cytotoxic T lymphocyte assays in vitro, adoptive transfer of T cells to secondary SCID hosts, and the lack of V beta deletion to endogenous host mtv antigens. GVHD in irradiated rat-->SCID chimeras is most prominent with Lewis FL but also applies to Fisher 344 and Wistar Furth FL cells. The failure of newly formed rat T cells in rat-->SCID chimeras to become fully tolerant to host mouse antigens appears to be due to depletion of host antigen-presenting cells by irradiation. Thus, rat-->SCID chimeras generated by transplanting rat FL cells into unirradiated neonatal SCID mice fail to develop GVHD, and the rat T cells display self-tolerance. As allogeneic H-2-different mouse FL-->irradiated SCID chimeras display strong self-tolerance, presumably through recognition of host antigens on thymic epithelial cells, the implication is that mouse thymic epithelial cells are tolerogenic only for mouse and not for rat immature T cells.     

Characterization of rat encephalitogenic T cells bearing non-V beta 8 T cell receptors.

In this study, we demonstrate that T cell lines specific for a synthetic peptide representing sequence 87 to 99 of myelin basic protein (MBP) are encephalitogenic in Lewis rats. However, unlike syngeneic T cells specific for MBP residues 68 to 88 which exclusively use V beta 8 in their antigen receptors, these cells do not. None of the 10 T cell lines and T hybridomas specific for MBP (87-99) used V beta 8 in their T cell receptors. Our results document for the first time that rat encephalitogenic T cells do not exclusively use V beta 8 in T cell receptors that rat encephalitogenic T cells specific for MBP (87-99) are heterogeneous and that MBP (87-99) contains at least two epitopes for rat T cells.     

Analysis of the T cell repertoire for myelin basic protein in thymus-grafted and other types of chimera: evidence that major histocompatibility complex molecules on accessory cells rather than T cell specificity mainly regulate susceptibility to autoimmune encephalomyelitis.

Experimental autoimmune encephalomyelitis (EAE) is a T cell-mediated autoimmune disease inducible in rodents by immunization of brain-specific antigens such as myelin basic protein (MBP). It is also well known that various strains of rats differ in their susceptibility to EAE upon active immunization. To elucidate the immune mechanisms of susceptibility and resistance to EAE, we first examined the T cell repertoire for MBP using thymectomized chimeras that possessed thymuses from EAE-susceptible (LEW) or EAE-resistant (BM) strains. It was revealed that T cell specificity of these chimeras was skewed toward that of the grafted thymus. Very interestingly, the chimeras bearing thymuses from the resistant strain developed severe EAE, keeping a hole in the encephalitogenic 68-88 sequence of MBP. These findings suggest that the strain-specific T cell repertoire itself is not involved in the regulation of EAE susceptibility. Furthermore, the analysis of the chimeras reconstituted with F1 T cells and marrow cells from various strains indicates that the major histocompatibility complex (MHC) molecules expressed on accessory cells primarily determine susceptibility or resistance to EAE. We finally showed, using various inbred and congenic rats carrying RT1l or RT1n, that susceptibility to EAE of rats carrying RT1l is heavily influenced by the background genes, whereas resistance to EAE of rats carrying RT1n is primarily regulated by the MHC molecules expressed on accessory cells without influence of the background genes.     

Prevention and treatment of Lewis rat experimental allergic encephalomyelitis with a monoclonal antibody to the T cell receptor Vβ8.2 segment

The predominance of T cell receptor (TCR) Vβ8.2 utilization by encephalitogenic T cells induced in Lewis rats by immunization with myelin basic protein (MBP) is controversial. Thus, both an almost exclusive usage of Vβ8.2 [Burns, F. R., Li, X., Shen, N., Offner, H., Chou, Y. K., Vandenbark, A. A. and Heber-Katz, E., J. Exp. Med. 1989. 169: 27; Chluba, J., Steeg, C., Becker, A., Wekerle, H. and Epplen, J. T., Eur. J. Immunol. 1989. 19: 279] and a quite diverse Vβ composition of CD4 T cells causing experimental autoimmune encephalomyelitis (EAE) [Sun, D., Gold, P. D., Smith, L., Brostoff, S. and Coleclough, C., Eur. J. Immunol. 1992. 22: 591; Sun, D., Le, J. and Coleclough, C., Eur. J. Immunol. 1993. 23: 494] have been reported. Using a recently developed monoclonal antibody (mAb) specific for TCR Vβ8.2, we show that postnatal treatment effectively eliminates Vβ8.2-bearing cells and prevents MBP-induced EAE in the majority of Lewis rats. Moreover, treatment of adult Lewis rats with Vβ8.2-specific mAb as late as on day 12 after MBP immunization suppressed the development of neurological symptoms. Thus, Vβ8.2-bearing cells do play a decisive role in Lewis rat EAE, and suppression of the small (5%) Vβ8.2-expressing T cell subset provides an effective therapeutic strategy.     

Analysis of TCR β chains in Lewis rats with experimental allergic encephalomyelitis. II. Vβ8.2+ T cells with limited CDR3 N region additions derive from the adult thymus

Immunization of Lewis (LEW) rats with guinea pig myelin basic protein (MBP) induces a population of encephalitogenic CD4 T cells having specificity for the dominant immunogenic peptide of MBP, 68 – 86. The TCR β chains of these disease-causing T cells show three distinct features: they are almost exclusively Vβ8.2, they use AspSer as the first two amino acid residues of the third complementarity-determining region (CDR3) and these junctional region sequences show few if any non-germline N-region nucleotide additions. This last feature raises the possibility that these autoimmune T cell precursors derive from TCR gene rearrangements occurring during early, perinatal ontogeny, a period when the enzyme terminal deoxynucleotidyl transferase (TdT), responsible for N region additions, is not expressed. An alternative possibility is that these features of the TCR of MBP 68 – 86-reactive T cells are dictated by considerations of antigen selection throughout ontogeny both in the thymus and in the periphery – i.e., that such β chains are conformationally the most appropriate for triggering by an epitope of 68 – 86 complexed to class II RT1.B^l MHC molecules. We show here that active experimental allergic encephalomyelitis, while delayed in onset, occurs in heavily irradiated animals, but not in the absence of a thymus, a finding indicating that this autoimmune disease is caused by a T cell subpopulation derived from the post-irradiation adult thymus. These disease-causing T cells are heavily Vβ8.2⁺ , CDR3 AspSer⁺ and use few N region additions. We conclude that T cells with these TCR β chain features can be generated in the adult thymus and most likely reflect requirements imposed by antigen selection.     

Rat thymic epithelium positively selects mouse T cells with specificity for rat MHC class II antigens but fails to induce detectable tolerance in the mouse T cells to the rat MHC antigens.

BALB/c (H-2d) nude mice were grafted with allogeneic AKR/J (H-2k) or xenogeneic (ACI-N rat, RT1av1) fetal thymuses which were depleted of hemopoietic cells by incubating with 2'-deoxyguanosine (2'dGuo) in vitro prior to grafting. The nylon-wool-passed LN T cells from nude mice grafted with 2'dGuo-treated AKR/J thymus showed a poor proliferative response to B10BR (H-2k) stimulator cells, confirming that mouse thymic epithelium has the capacity to induce tolerance against the mouse MHC antigens on the thymic epithelium. On the other hand, the nylon-wool-passed LN T cells from nude mice grafted with untreated or 2'dGuo-treated ACI/N rat thymus showed significant proliferative responses to ACI/N, which can be blocked by anti-rat MHC class II mAb, whereas the nylon-wool-passed LN T cells from nude mice grafted with syngeneic thymus hardly responded to the xenogeneic stimulator cells. These results suggest that rat thymic stromal cells including thymic epithelium can not induce detectable tolerance in mouse T cells to rat MHC antigens; but rat thymic epithelium may positively select mouse T cells with specificity for rat MHC class II antigens, resulting in a mouse T cell repertoire with strong xeno-reactivity.     

Anergy induction in encephalitogenic T cells by brain microvessel endothelial cells is inhibited by interleukin-1

Experimental autoimmune encephalomyelitis (EAE) is an inflammatory disease of the central nervous system (CNS) which can be induced, in susceptible strains like Lewis rats, by transfer of activated myelin basic protein (MBP)-specific CD4⁺ T lymphocytes. The role of cerebral endothelium in the onset of EAE, with regard to adhesion, activation and infiltration in the CNS of encephalitogenic T lymphocytes, is not fully understood. When pretreated by interferon-γ, the immortalized Lewis rat brain microvessel endothelial (RBE4) cells expressed major histocompatibility complex class II molecules and stimulated MBP-specific proliferation and cytolytic activity of the syngeneic encephalitogenic T cell line, designated PAS. However, RBE4-stimulated PAS lymphocytes subsequently entered an unresponsive state, known as anergy. When inoculated in syngeneic animals, anergic PAS cells, although still cytotoxic, failed to induce EAE, and no cell infiltration was detectable within CNS. The addition of interleukin-1β (IL-1β) during MBP presentation by RBE4 cells prevented T cell anergy induction, and maintained T cell encephalitogenicity, although PAS cells stimulated in these conditions caused delayed and attenuated clinical signs of EAE, with only discrete inflammatory lesions in the CNS, compared with EAE induced by PAS cells fully activated by thymic cells. Altogether, our results indicate that MBP presentation by brain microvessel endothelial cells to encephalitogenic T cells induces T cell anergy and loss of pathogenicity. In addition, IL-1β co-stimulation of T cells prevents anergy induction in vitro and at least partially maintains encephalitogenicity in vivo.     

Delineation of the minimal encephalitogenic epitope within the immunodominant region of myelin oligodendrocyte glycoprotein: diverse Vβ gene usage by T cells recognizing the core epitope encephalitogenic for T cell receptor Vβb and T cell receptor Vβa H-2b mice

The nature of the autoimmune T cell response to myelin oligodendrocyte glycoprotein (MOG), recently recognized as a potential target antigen in multiple sclerosis (MS), has not yet been characterized, in contrast to the T cell reactivity to other potential target antigens in MS such as myelin basic protein and proteolipid protein. Here, we show that the encephalitogenicity of the recombinant Ig-like domain of human MOG is associated, in H-2^b mice, with an immunodominant T cell reactivity against a single region of MOG spanning amino acids 35–55, accounting for the previously reported strong encephalitogenic activity of pMOG 35–55. A single injection of pMOG 35–55 with or without administration of pertussis toxin was sufficient to induce severe clinical experimental autoimmune encephalomyelitis (EAE) in H-2^b mice. Encephalitogenic pMOG 35–55-specific T cell lines derived from C3H.SW (Vβ^b) mice were diverse in their TCR Vβ gene usage (Vβ1, Vβ6, Vβ8 and Vβ15), although Vβ8.2 was most predominantly expressed (48%). However, Vβ8⁺ T cells may only be part of the encephalitogenic MOG-specific T cell repertoire in H-2^b mice, as demonstrated by the susceptibility of C57L (Vβ^a) mice to disease induced by pMOG 35–55. Encephalitogenic T cell lines from Vβ^a mice were also diverse in their TCR Vβ gene usage (Vβ1, Vβ2, Vβ6, Vβ14 and Vβ16). Such a heterogeneous TCR Vβ gene expression by pMOG 35–55/I-A^b-reactive T cells from both Vβ^a and Vβ^b H-2^b mice suggested multiple epitopes within pMOG 35–55. Analysis of the pattern of reactivity by pMOG 35–55-reactive T cells to a set of truncated peptides was not commensurate with independent nested epitopes, but revealed a requirement for recognition of a core sequence, YRSPFSRVV (pMOG 40–48). However, optimal stimulation was obtained with longer peptides, with each additional amino acid flanking either the N or the C terminus differentially increasing the stimulatory capacity of pMOG 40–48. Nonetheless, pMOG 40–48 was the minimal encephalitogenic epitope for both Vβ^a and Vβ^b mice. Thus, the T cell reactivity against the immunodominant encephalitogenic region of MOG is characterized by a diverse Vβ gene usage and a requirement for the same core epitope. This pattern of reactivity may favor epitope-directed, rather than TCR-targeted, approaches to immunospecific therapy for MOG-related autoimmune disease.     

Protection from experimental allergic encephalomyelitis by application of a bacterial superantigen.

Certain bacterial and viral T cell stimulating proteins ('superantigens') are known to be very potent activators of T cells with certain V beta receptors. When applied in vivo these molecules induce anergy in those T cells responding to them. In this study we have investigated the influence of staphylococcal enterotoxins (SE) on myelin basic protein (MBP)-specific T cells in Lewis rats. As MBP-specific T cells in rats belong exclusively to the V beta 8.2+ CD4+ subset, the induction of experimental allergic encephalomyelitis (EAE) allows for an estimation of the functional state of the respective V beta-bearing T cells after enterotoxin-induced activation. In vitro, various MBP-specific T cell lines showed a strong selective proliferative response to staphylococcal enterotoxin E (SEE) but not to other SE. The in vitro activation by SEE induced encephalitogenic potential in these cells. After application of SEE to Lewis rats the susceptibility to induction of EAE was completely abrogated. Such SEE-treated and MBP-challenged rats did not exhibit any signs of disease and their T cells did not respond to MBP in proliferation tests. This abrogation of EAE was only found with a superantigen capable of interacting specifically with V beta 8.2+ T cells. Superantigen-mediated induction of unresponsiveness may have relevance for the analysis of pathogenetic mechanisms and for therapeutic considerations in certain T cell-mediated autoimmune diseases.     

Reconstitution of SCID mice with haemopoietic precursors: a detailed analysis of gamma delta T-cell reconstitution.

A well-known characteristic of gamma delta T cells is that they are produced in waves during ontogeny, with cells expressing T-cell receptor V gamma 5 appearing early in fetal thymic ontogeny, followed by V gamma 6, then by other gamma delta T-cell types. In addition, evidence exists to suggest that the potential of haemopoietic precursors to generate different types of gamma delta T cells changes in ontogeny. We have used these observations as the basis for an extensive study of the potential for haemopoietic precursors isolated from fetal liver, neonatal spleen and adult bone marrow to reconstitute severe combined immunodeficient (SCID) mice. Mice that were reconstituted as newborns with fetal liver cells most closely resembled normal C.B-17 mice with respect to both lymphocyte numbers and subsets, while mice reconstituted with adult bone marrow had fewer cells than normal mice. This deficit spanned both T and B cells in all organs examined. Among the gamma delta T-cell subsets examined, the ability to reconstitute V gamma 4+ cells was particularly dependent on the ontogenic age of the reconstituting presursors, with fetal liver cells having the greatest capacity to generate V gamma 4+ cells, and adult bone marrow cells the least. The vast majority of the T cells produced in the reconstituted mice were of donor origin, and the level of reconstitution was found to be dependent upon some factor other than the presursor frequency.     

Glucocorticoid receptor deficient thymic and peripheral T cells develop normally in adult mice

The involvement of glucocorticoid receptor (GR) signaling in T cell development is highly controversial, with several studies for and against. We have previously demonstrated that GR(-/-) mice, which usually die at birth because of impaired lung development, exhibit normal T cell development, at least in embryonic mice and in fetal thymus organ cultures. To directly investigate the role of GR signaling in adult T cell development, we analyzed the few GR(-/-) mice that occasionally survive birth, and irradiated mice reconstituted with GR(-/-) fetal liver precursors. All thymic and peripheral T cells, as well as other leukocyte lineages, developed and were maintained at normal levels. Anti-CD3-induced cell death of thymocytes in vitro, T cell repertoire heterogeneity and T cell proliferation in response to anti-CD3 stimulation were normal in the absence of GR signaling. Finally, we show that metyrapone, an inhibitor of glucocorticoid synthesis (commonly used to demonstrate a role for glucocorticoids in T cell development), impaired thymocyte development regardless of GR genotype indicating that this reagent inhibits thymocyte development in a glucocorticoid-independent fashion. These data demonstrate that GR signaling is not required for either normal T cell development or peripheral maintenance in embryonic or adult mice.     

Human intrathymic development: a selective approach

Human T lymphocytes can be generated from CD34 progenitor cells from different sources. This can be obtained in an in vivo model wherein human thymic tissue and fetal liver is transplanted in an immunodeficient mouse. However, human T cells are also generated in immunodeficient mice without co-transplantation of human thymus or in in vitro hybrid human-mouse fetal thymus organ culture. This shows that xenogeneic mouse thymus tissue supports human T cell differentiation. Finally, human T cells are generated on co-culture with murine stromal cells that express the Delta-like1 ligand for the Notch receptor. How these different environments influence the human T cell repertoire is reviewed and discussed.     

Preferential distribution of Vβ 8.2-positive T cells in the central nervous system of rats with myelin basic protein-induced autoimmune encephalomyelitis

To determine the role of encephalitogenic T cells in the formation of lesions in the central nervous system (CNS), experimental autoimmune encephalomyelitis (EAE) was induced in Lewis rats by immunization with either myelin basic protein (MBP) or the synthetic peptide which corresponds to the 87–100 sequence of guinea pig MBP, and T cells expressing T cell receptor (TcR) Vβ8.2, Vβ8.5, Vβ10 and Vβ16 in the lymphoid organs and CNS were localized and quantified by flow cytometry (FCM) and immunohistochemistry. In normal rats, the percentage of T cells expressing these Vβ phenotypes to the total number of TcR αβ⁺ T cells, as determined by FCM, ranged from 5% to 10% in the lymph node. Vβi6⁺ T cells were the most predominant population among the four Vβ subsets tested. Essentially the same findings were obtained from the analysis of the lymphoid organs of rats with EAE which had been induced by immunization with the same two antigens. In sharp contrast, 15–20% of the T cells isolated from lesions of MBP-induced EAE expressed Vβ8.2⁺. Thus, the percentage of Vβ8.2⁺ T cells in the EAE lesions was threefold higher than that in the lymph node, while the proportions of Vβ8.5⁺, Vβ10⁺ and Vβ16⁺ T cells were about the same in both organs. The predominance of Vβ58.2⁺ T cells in EAE lesions was confirmed by counts of immunohistochemically stained T cells in the spinal cord. Moreover, it was revealed that (i) the predominance of Vβ8.2⁺ T cells was greatest during the development of EAE and became less obvious at the recovery stage, and (ii) at the peak stage of EAE, approximately 85% of Vβ8.2⁺ T cells were distributed in the parenchyma while 15% were in the perivascular space of the CNS vessels. These findings indicate that encephalitogenic T cells which express Vβ8.2 infiltrate the CNS at a very early stage of EAE and become the predominant population in infiltrating T cells, and further suggest that encephalitogenic T cells, not only recruit inflammatory cells in the CNS, but also cause neural tissue damage, such as demyelination.     

TRAF6 directs commitment to regulatory T cells in thymocytes

Regulatory T cells (Tregs), a subset of CD4(+) helper T cells, are crucial for immunological self-tolerance. Defect in development or function of Tregs results in autoimmune disease in human and mice. Whereas it is known that Tregs mainly develop in the thymus, the molecular mechanism underlying development of Treg is not fully understood. TRAF6-deficient mice showed a severe defect in the Treg development in thymus. In vitro fetal thymic organ culture experiments indicated that the defect is ascribed to the absence of TRAF6 in thymic cells. Moreover, mixed fetal liver transfer experiments revealed that the development of Foxp3(+) cells differentiated from Traf6(-/-) hematopoietic cells was specifically impaired in the thymus, indicating cell-intrinsic requirement for TRAF6 in the Treg development. On the other hand, TRAF6 is not required for the development of conventional CD4(+) T cell. In addition, TGFβ-dependent induction of Foxp3 in CD4(+) T cells in vitro was not impaired by the absence of TRAF6. Overall, our data indicate that TRAF6 plays an essential role on the commitment of immature thymocytes to thymic Tregs in cell-intrinsic fashion.     

Development of T cells in SCID mice grafted with fetal thymus from AKR mice or F344 rats

To examine the development of T cells within an allogeneic or xenogeneic environment, we engrafted the fetal thymus from AKR mice or F344 rats under the kidney capsule of SCID mice (mTG and rTG mice). T lymphopoiesis developed in SCID mice 2 months after transplantation, although the ratio of CD4/CD8 in both experimental groups was different from that of normal control. T cells in mTG mice did not show in vitro proliferation or cytotoxicity against either host-type C.B-17 (H-2^d) or donor-type AKR (H-2^k) cells, while they exerted potent activities against third-party BIO (H-2^b) cells. In contrast, T cells in rTG mice exhibited proliferation against both host-type C.B-17 and donor-type F344 rat cells. Consistently, graft-vs.-host disease symptoms developed in these mice and histological examination showed impressive infiltration of lymphocytes into the skin or into the mucosal layers of the stomach. Activated state of T cells in rTG mice was also evidenced by the positive expression of interleukin-2 receptor. Taken together, fetal thymus appears to contain progenitor cells which are sufficient for in vivo reconstitution of T lymphopoiesis, but species-specific environment is important for the induction of tolerance. In mTG mice, Vβ6⁺ T cells reactive to donor Mls^a determinants and Vβ3⁺ T cells reactive to host Mls^c determinants were deleted, suggesting that tolerance was regulated mainly by clonal deletion. By contrast, Vβ11⁺ T cells reactive to Mls^f determinants were not deleted possibly due to the lack of their ligands.