Delta is the Cx-gene product in the gamma/delta antigen receptor of dendritic epidermal cells

Most T cells bear an antigen receptor that is a protein of a disulphide-linked heterodimer composed of an alpha chain and a beta chain associated with the non-polymorphic CD3 (T3) complex. A small subpopulation of thymic and peripheral T cells, as well as Thy-1+dendritic epidermal cells (dEC), express an alternative CD3-associated dimeric receptor composed of the product of the T-cell antigen receptor (TCR) gamma gene and a fourth chain, designated delta. Recently a new murine TCR constant-region gene, designated Cx, has been cloned and proposed as a candidate for the C delta gene. We have previously demonstrated that murine Thy-1+ dEC cell lines express a CD3-associated disulphide-linked heterodimer composed of a relative molecular mass Mr 41,000 (41K) gamma chain and a 50K delta chain. We have further analysed the receptor of one of these cloned dEC lines, 7-17.1, by endoglycosidase treatment of the isolated gamma and delta chains. The gamma chain was found to contain two N-linked oligosaccharide residues, consistent with the expression of a chain encoded by the V gamma 3 and C gamma 1 gene segments. The delta chain contains at least three N-linked oligosaccharides and has a core size of 38K. Northern blot analysis indicated the presence of abundant Cx messenger RNA in 7-17.1 cells. Immunoprecipitation with two antisera to peptides comprising distinct regions of the Cx sequence indicates that the delta chain is encoded by the Cx gene.     

Peptide sequences of T-cell receptor delta and gamma chains are identical to predicted X and gamma proteins

Although most mature peripheral T lymphocytes express a major histocompatibility complex restricted, CD3-associated, antigen receptor (TCR) which has been well characterized, some T cells carry a different CD3-associated heterodimer on their surface. One of the two disulphide-linked chains of this putative second receptor, which in mice has relative molecular mass (Mr) 35,000 (35K), has been identified as a product of the group of gamma genes. The other chain, termed delta (Mr 45K in mice), is not as well characterized. Although gamma/delta-bearing cells are a minor subset among peripheral T lymphocytes, they are the only CD3+ cells in the thymus early in ontogeny. Taking advantage of these kinetics, we have generated gamma/delta-bearing hybridomas, using a new TCR alpha chain-negative variant of the AKR thymoma BW5147 as tumour parent, fetal thymocytes as normal cell partners, and an anti-CD3 monoclonal antibody (mAb) as screening reagent. Gamma and delta chains from one of these hybrids have been purified and partially sequenced. The sequences obtained indicate that delta is indeed identical to the polypeptide encoded by the recently described gene X, as suggested by Chien et al.     

Major histocompatibility complex-linked specificity of gamma delta receptor-bearing T lymphocytes

Several recent studies have identified a distinct subset of CD3(T3)+CD4-CD8-T lymphocytes that express a CD3-associated heterodimer made up of the protein encoded by the T-cell receptor (TCR) gamma-gene and a second glycoprotein termed TCR delta (refs 1-4). TCR gamma delta is expressed on CD3+ thymocytes during fetal ontogeny before the appearance of TCR alpha-beta (alpha beta) (refs 5-7), on CD3+CD4-CD8- adult thymocytes, and on a subset (1-10%) of CD3+ cells in adult peripheral lymphoid organs and the peripheral blood. TCR gamma delta-expressing T cells probably represent a distinct mature T-cell lineage with the capacity to proliferate in response to receptor-mediated signals, and to display non-major histocompatibility complex (MHC)-restricted cytolysis. Critical to understanding the function of this T-cell subset is the identification of the ligand(s) recognized by TCR gamma delta. Here we describe an alloreactive CD3+CD4-CD8-TCR gamma delta-expressing, TCR alpha beta-negative, T-cell line that manifests MHC-linked recognition specificity for both proliferation and cytotoxicity. Our results suggest that T cells expressing TCR gamma delta are capable of self-non-self MHC discrimination and that they can undergo MHC-influenced selection during differentiation like TCR alpha beta-expressing T cells.     

Beta 2-microglobulin deficient mice lack CD4-8+ cytolytic T cells

Mice homozygous for a beta 2-microglobulin gene disruption do not express any detectable beta 2-m protein. They express little if any functional major histocompatibility complex (MHC) class I antigen on the cell surface yet are fertile and apparently healthy. They show a normal distribution of gamma delta, CD4+8+ and CD4+8- T cells, but have no mature CD4-8+ T cells and are defective in CD4-8+ T cell-mediated cytotoxicity. Our results strongly support earlier evidence that MHC class I molecules are crucial for positive selection of T cell antigen receptor alpha beta+ CD4-8+ T cells in the thymus and call into question the non-immune functions that have been ascribed to MHC class I molecules.     

Differential expression of two distinct T-cell receptors during thymocyte development

The product of the T-cell receptor (TCR) gamma-gene has recently been found to be expressed on a subset of both peripheral cells and thymocytes. As an initial approach to understanding the role of this gamma-chain of TCR (TCR gamma) in T-cell development, we have studied the ontogeny of TCR expression at the protein level in the developing murine thymus. We show here that the first T3-associated TCR to be expressed in the developing thymus is a disulphide-linked heterodimer composed of a gamma-chain of relative molecular mass 35,000 (Mr 35K) and a 45K partner (termed TCR delta). This TCR gamma delta is first detected approximately two days before the appearance of cell-surface TCR alpha beta heterodimers. We report that N-glycosidase digestions reveal that all of the gamma-protein expressed on fetal thymocytes, as in adult CD4-8-(L3T4-, Lyt2-) thymocytes, bear N-linked carbohydrate side chains. The major gamma-gene transcribed in mature, alpha beta-bearing T cells (V gamma 1.2C gamma 2)encodes no N-linked glycosylation site so these results suggest that the fetal gamma delta receptor defines a distinct T-cell lineage whose development in the thymus precedes classical alpha beta-bearing cells.     

Intestinal intraepithelial lymphocytes are a distinct set of gamma delta T cells

Lymphocytes are most reliably subdivided on the basis of their receptors for antigen at the cell surface. Three subtypes of lymphocytes are well defined: B cells that bear surface immunoglobulin and make antibody, CD4+T cells with CD3 alpha beta receptors specific for antigen associated with class II major histocompatibility complex molecules, and CD8+T cells with CD3 alpha beta receptors specific for antigen associated with class I MHC molecules. These T cells are responsible for known forms of cell-mediated immunity. The discovery of a third rearranging T-cell specific gene called gamma (refs 1 and 2) has revealed the presence of a new class of T cells bearing a new receptor type, CD3 gamma delta (refs 3-7). To date, neither the function nor the specificity of cells bearing this receptor has been determined. Because gamma delta T cells are the main lymphocyte of epidermis, it was proposed that such cells could be important in surveillance of all epithelia. We have isolated intraepithelial lymphocytes from murine small intestine, and shown that they predominantly or exclusively express CD3 gamma delta receptors. Unlike the epidermal lymphocytes, these cells also express CD8, and they use a different V lambda gene to form their receptor. This strongly suggests that gamma delta T cells home in a very specific manner to epithelia, where they presumably mediate their function.     

The adult T-cell receptor delta-chain is diverse and distinct from that of fetal thymocytes

T lymphocytes recognize foreign molecules using the T-cell receptor (TCR), a disulphide-linked heterodimer closely associated with the CD3 polypeptide complex on the cell surface. The TCR alpha beta heterodimers seem largely responsible for the recognition properties of both helper (TH) and cytotoxic (TC) T cells. Recently, a second CD3-associated T-cell receptor heterodimer, gamma delta, has been described. Cells bearing the gamma delta receptor appear before those bearing alpha beta during thymic ontogeny and persist as a minor component (1-10%) of mature peripheral T cells. Their function is unknown. As there are a limited number of functional TCR V gamma gene segments, the size and potential diversity of the V delta repertoire is important for the number of different antigens that may be recognized by gamma delta heterodimers. The delta-chain locus is located 75 kilobases (kb) 5' to the TCR C alpha coding region, raising the possibility that the alpha and delta V-region repertoires may overlap. Also, analysis of rearrangements at the delta-chain locus in developing thymocytes shows distinct fetal and adult patterns indicating that there may be differences between the fetal and adult V delta repertoires. To address these questions, we have characterized a large number of delta-containing complementary DNA clones from adult double-negative thymocytes (CD4-8-), an immature population that is enriched for gamma delta-bearing cells. We find that a limited number of V delta sequences are used, showing little overlap with known adult V alpha s and differing significantly from fetal V delta s. But as two D elements may participate simultaneously in V delta gene assembly, and random nucleotides may be added at any one of three junctional points, the potential number of different delta chains that can be made in the adult thymus is very large (approximately 10(13)).     

Isolation of CD4- CD8- mycobacteria-reactive T lymphocyte clones from rheumatoid arthritis synovial fluid

The majority of peripheral T cells express a heterodimeric, alpha/beta T-cell receptor, which recognizes specific antigenic peptides bound to self major histocompatibility complex (MHC) molecules, and either the CD4 or CD8 surface markers. An additional subset of T cells, whose physiological function is unknown, express a distinct CD3-associated receptor composed of gamma and delta chains. This subset includes cells lacking both CD4 and CD8 surface markers, which may be involved in autoimmunity. The recognition specificity of the gamma/delta receptors is not well characterized and has been defined in only one case to date, a murine cell line which shows MHC-linked specificity. In this report, we describe the isolation of CD4- CD8-, gamma/delta TCR bearing T cell clones from the synovial fluid of a rheumatoid arthritis patient. These T cell clones respond specifically to mycobacterial antigens without MHC restriction.     

T-cell receptors of human suppressor cells

Cells which can suppress the immune response to an antigen (TS cells) appear to be essential for regulation of the immune system. But the characterization of the TS lineage has not been extensive and many are sceptical of studies using uncloned or hybrid T-cell lines. The nature of the antigen receptor on these cells is unclear. T cells of the helper or cytotoxic lineages appear to recognize their targets using the T-cell receptor (TCR) alpha beta-CD3 complex. TCR beta-gene rearrangements are also found in some murine and human suppressor cell lines but others have been shown not to rearrange or express the beta-chain or alpha-chain genes. We previously established TS clones derived from lepromatous leprosy patients which carry the CD8 antigen and recognize antigen in the context of the major histocompatibility complex (MHC) class II molecules in vitro. We here report the characterization of additional MHC-restricted TS clones which rearrange TCR beta genes, express messenger RNA for the alpha and beta chains of the TCR and express clonally unique CD3-associated TCR alpha beta structures on their cell surface but do not express the gamma chain of the gamma delta TCR on the cell surface. We conclude that antigen recognition by at least some human CD8+ suppressor cells is likely to be mediated by TCR alpha beta heterodimers.     

Human gamma delta+ T cells respond to mycobacterial heat-shock protein

Most T cells recognize antigen through the T-cell antigen receptor (TCR)alpha beta-CD3 complex on the T-cell surface. A small percentage of T cells, however, do not express alpha beta but a second type of TCR complex designated gamma delta (ref. 2). Unlike alpha beta+ lymphocytes, gamma delta+ lymphocytes do not generally express CD4 or CD8 molecules, and the nature of antigen recognition by these cells is unknown. To study antigen recognition by gamma delta+ lymphocytes we raised a gamma delta+ alpha beta- -CD4-CD8- line from an individual immune to PPD (purified protein derivative). This line showed a specific proliferative response to PPD and to a recombinant mycobacterial heat-shock protein (HSP) of relative molecular mass 65,000 (65K). The gamma delta+ line was shown to exhibit a major response to HSP in the presence of autologous antigen-presenting cells (APCs). Minor responses occurred, however, with APCs matched for some HLA class I or II antigens, whereas no response occurred with HLA-mismatched APCs. These findings, therefore, document the requirement of HSP-reactive gamma delta+ lymphocytes for histocompatible APCs.     

A novel population of T-cell receptor alpha beta-bearing thymocytes which predominantly expresses a single V beta gene family

Recent studies have demonstrated that CD3 is expressed on a subset of thymocytes with a CD4-CD8- (double negative) phenotype. At least some of these cells bear the CD3-associated gamma delta T-cell receptor (TCR gamma delta). Here we describe a second subset of double negative thymocytes which expresses CD3-associated alpha beta receptors (TCR alpha beta). Surprisingly, these cells express predominantly the products of a single V beta gene family (V beta 8). These CD4-CD8-, TCR alpha beta+ cells appear relatively late in ontogeny (between birth and day 5 of life) and thus are unlikely to be the precursors to the TCR alpha beta-bearing cells (CD4+CD8- and CD4-CD8+) already present at birth. They can be selectively expanded in vitro by stimulation with a monoclonal antibody to V beta 8 (F23.1) in the presence of interleukin I (IL-1). We propose that this cell type is a unique T-cell population distinguishable from typical TCR alpha beta+ T cells by its CD4-CD8- phenotype and a restricted TCR V beta repertoire. Analysis of the unique phenotype of these cells suggests that they may represent the normal counterpart of the defective CD4-CD8- T cells found in the lpr autoimmune mouse.     

A functional T3 molecule associated with a novel heterodimer on the surface of immature human thymocytes

The known T-cell receptors (TCRs) involved in the recognition of antigen and major histocompatibility complex (MHC) molecules are glycoproteins comprised of polymorphic disulphide-linked alpha- and beta-chains. The genes encoding these chains are homologous to immunoglobulin genes and consist of V (variable), J (joining) and C (constant) regions that rearrange during development. TCRs are expressed relatively late in thymocyte development and only in association with an invariant molecular complex of proteins termed T3. Immature thymocytes do not express the TCR-T3 complex but do express messenger RNA encoding a third rearranging T-cell receptor-like gene, termed T gamma. Here we report a clone of normal immature T4-T8- human thymocytes, designated CII, which does not express mature mRNA for T alpha or T beta genes, but does express high levels of T gamma mRNA. This clone also expresses high levels of surface T3, and antibodies to T3 induce immunologically relevant functions in CII cells. Immunoprecipitation of CII surface-labelled proteins with anti-T3 co-precipitates a T3 molecular complex together with two additional and novel peptides of relative molecular mass (Mr), 44,000 (44K) and 62,000 (62K).     

Participation of CD4 coreceptor molecules in T-cell repertoire selection.

During thymocyte development, progenitor cells bearing both CD4 and CD8 coreceptor molecules mature into functional T lymphocytes that express these proteins in a mutually exclusive way. Although T-cell specificity is determined primarily by the structure of the T-cell antigen receptor (TCR) heterodimer, a developmentally regulated process acts to ensure that cells bearing class II-restricted TCRs are CD4+ and those bearing class I-restricted TCRs express only CD8. To investigate this maturation process, we have engineered transgenic mice in which CD4 is expressed in all thymocyte subsets and in all peripheral T cells. Peripheral CD4+8+ T lymphocytes from these mice react with both class I and class II alloantigens. Moreover, expression of the CD4 transgene disrupts the positive selection of doubly transgenic thymocytes bearing a class I-restricted TCR specific for the male (H-Y) antigen. Hence the CD4 coreceptor participates directly in T-cell repertoire selection.     

Distinct antigen receptor repertoires of two classes of murine epithelium-associated T cells

T lymphocytes are found not only as recirculating cells in the lymphoid system, but also as immobile cells in certain epithelia. T-cell antigen receptors (TCR) of both alpha/beta and gamma/delta-heterodimer subtypes can exhibit an extremely high degree of diversity. The diversity of alpha/beta TCRs derives from the use of a large number of variable (V) gene segments, as well as junctional diversity generated during rearrangement of these segments, whereas the diversity of gamma/delta TCRs derives largely from junctional elements, with a smaller contribution from a limited number of V gene segments. Many T cells in the epidermal and intestinal epithelia of mice express TCR composed of gamma/delta heterodimers. We demonstrate here that gamma/delta TCRs of T cells in both these tissues are restricted in V gene usage, with different elements predominating. The TCR junctional diversity of epidermal T cells, however, is extremely limited, whereas that of intestinal T cells is extremely diverse. The distinctive features of these two populations suggest that they develop or are selected differently for particular tissue-specific functions.     

Presence of Ti (WT31) negative T lymphocytes in normal blood and thymus

The antigen receptor expressed on most T lymphocytes is a disulphide-linked heterodimer (Ti) that is composed of alpha-chain and beta-chain subunits. On the surface of human T lymphocytes, Ti is non-covalently associated with three invariant proteins, designated CD3-gamma, -delta, and -epsilon. It has been suggested that Ti is obligatory for CD3 expression. But a T leukaemia cell line, IL-2 (interleukin 2) dependent T-cell clones established from fetal blood and IL-2 dependent cell lines established from immunodeficiency patients with bare lymphocyte syndrome and ectodermal dysplasia syndrome have recently been shown to express CD3, but not Ti (detected due to monoclonal antibody WT31). These lymphocytes may express the product of the T-cell antigen receptor gamma (TCR-gamma) gene, rather than the alpha/beta heterodimer, in association with CD3. Preliminary studies suggested that T cells expressing CD3 but lacking Ti are present in low frequency in normal lymphoid tissues. Here we show that in normal blood and thymus CD3+, WT31-T cells express neither CD4 nor CD8. The low frequency (less than 0.2-0.9% of total thymocytes) of CD3+, WT31- cells in the thymus suggests that this population does not represent a major stage of thymic development and may be a distinct lineage of T cells.     

Differentiation potential of subsets of CD4-8- thymocytes

Precursor T cells in the thymus are contained within a subpopulation of thymocytes that lack the markers CD4 and CD8. We have examined the heterogeneity of these cells by flow cytometric analysis, and defined four subpopulations using the cell surface markers Thy-1, J11d and the IL-2 receptor (IL-2R). The J11d+ subset of CD4-8- cells all bear the antigen Thy-1, and some express the IL-2R. Staining and RNA analysis of J11d+ cells suggest that some express receptors of the CD3 gamma delta type, but none express CD3 alpha beta receptors. In fetal thymus organ culture, the J11d+ cells diversify to form 'cortical type' CD4+8+ cells and 'medullary type' cells expressing either CD4 or CD8; in vivo they repopulate the thymus of an irradiated host and seed the periphery with T cells. In contrast, the J11d- subset of CD4-8- thymocytes do not all bear Thy-1 and none express the IL-2R, but some express antigen receptors of the CD3 alpha beta type. They have more limited diversification potential in organ culture, and in vivo fail to recolonize the irradiated host in a homing-independent assay. We conclude that they are not precursor T cells, but rather a side-branch from the main line of T cell differentiation.     

Resident pulmonary lymphocytes expressing the gamma/delta T-cell receptor

The biological role of cells bearing the gamma delta T-cell antigen receptor (TCR) is as yet unclear. Although there are indications that some gamma delta+ cells can mediate cytotoxicity, their antigen-related functions have not yet been defined. In the mouse, gamma delta+ cells constitute 1-3% of T cells in lymphoid organs. Intestinal intraepithelial lymphocytes (IELs) and dendritic epidermal cells (DECs) also appear to carry the gamma delta TCR. The strategic locations of DECs and IELs have led to the suggestion that gamma delta+ cells could constitute a first line of defence in the vicinity of large surfaces of contact with the environment. We report here that an estimated 8-20% of resident pulmonary lymphocytes (RPLs) are CD3+ alpha beta TCR-, and presumably gamma delta TCR+. Furthermore, mice exposed to aerosols containing a Mycobacterium tuberculosis extract have an increased number of activated CD3+ alpha beta-TCR- pulmonary T cells which can be propagated in vitro.     

Phenotypic differences between alpha beta versus beta T-cell receptor transgenic mice undergoing negative selection

T-cell differentiation in the thymus is thought to involve a progression from the CD4-CD8- phenotype through CD4+CD8+ intermediates to mature CD4+ or CD8+ cells. There is evidence that during this process T cells bearing receptors potentially reactive to 'self' are deleted by a process termed 'negative selection' One example of this process occurs in mice carrying polymorphic Mls antigens, against which a detectable proportion of T cells are autoreactive. These mice show clonal deletion of thymic and peripheral T-cell subsets that express the autoreactive V beta 3 segment of the T-cell antigen receptor, but at most a two-fold depletion of thymic cells at the CD4+CD8+ stage. By contrast, transgenic mice bearing both alpha and beta chain genes encoding autoreactive receptors recognizing other ligands, show severe depletion of CD4+CD8+ thymocytes as well, suggesting that negative selection occurs much earlier. We report here the Mls 2a/3a mediated elimination of T cells expressing a transgene encoded V beta 3-segment, in T-cell receptor alpha/beta and beta-transgenic mice. Severe depletion of CD4+CD8+ thymocytes is seen only in the alpha/beta chain transgenic mice, whereas both strains delete mature V beta 3 bearing CD4+ and CD8+ T cells efficiently. We conclude that severe CD4+CD8+ thymocyte deletion in alpha/beta transgenic mice results from the premature expression of both receptor chains, and does not reflect a difference in the timing or mechanism of negative selection for Mls antigens as against the allo- and MHC class 1-restricted antigens used in the other studies.     

Regulation of T-cell receptor gamma-chain RNA expression in murine Thy-1+ dendritic epidermal cells

The epidermis of normal mice contains two distinct populations of dendritic cells derived from the bone marrow, Ia+ Langerhans cells and Ia- cells that express the Thy-1 alloantigen. The Thy-1-bearing dendritic epidermal cells (Thy-1+ dEC) have a surface phenotype similar to that of very early T-lineage cells, produce IL-2-like growth factors and exhibit cytotoxicity which is not restricted by the major histocompatibility complex (MHC). The relationship of Thy-1+ dEC to the T-cell lineage is unclear. Most T lymphocytes bear a receptor for antigen composed of an alpha chain and a beta chain associated with a nonpolymorphic complex termed CD3 (T3). A minor population carries a receptor in which CD3 is associated with a gamma/delta complex. We have analysed clones of Thy-1+ dEC for rearrangement and expression of the genes for the alpha-, beta- and gamma-chains of the T-cell receptor (TCR). They do not express alpha or beta but do carry a gamma/delta complex. Activation of the cells with Con A is associated with a rapid decrease in the steady-state level of gamma-chain RNA. Because Thy-1+ dEC resemble early stage T lymphocytes, down-regulation of TCR expression may reflect a necessary event during T cell differentiation.