Biased T-cell receptor delta element recombination in scid thymocytes.

Thymocytes in mutant mice with severe combined immunodeficiency (scid thymocytes) show ongoing recombination of some T-cell receptor delta gene elements, generating signal joints quantitatively and qualitatively indistinguishable from those in wild-type fetal thymocytes. Excised D delta 2-J delta 1 and D delta 1-D delta 2 rearrangements are detectable at levels equivalent to or greater than those in thymocytes from wild-type mice on fetal day 15. Signal junctional modification, shown here to occur frequently in wild-type adult but not newborn excised D delta 2-J delta 1 junctions, can occur normally in adult scid thymocytes. Excised D delta 1-D delta 2 scid junctions, similar to wild-type thymocytes, include pseudonormal coding junctions as well as signal junctions. Inversional D delta 1-D delta 2 rearrangements, generating conventional hybrid junctions, are also reproducibly detectable in scid thymus DNA. These hybrids, unlike those reported for artificial recombination constructs, do not show extensive nucleotide loss. In contrast to the normal or high incidences of D delta 1-, D delta 2-, and J delta 1-associated signal junctions in scid thymocytes, V delta 1, V gamma 3, and V gamma 1.2 signal products are undetectable in scid thymocytes or are detectable at levels at least 10-fold lower than the levels in wild-type fetal thymocytes. These findings confirm biased T-cell receptor element recombination by V(D)J recombinase activity of nontransformed scid thymocytes and indicate that analysis of in vivo-mediated gene rearrangements is important for full understanding of how the scid mutation arrests lymphocyte development.     

Immature and advanced patterns of T cell receptor gene rearrangement among lymphocytes in splenic culture

Bulk populations and 39 hybridomas from splenic Con A cultures were analyzed for rearrangements among TCR genes: alpha, beta, gamma, and delta. Patterns were categorized to reveal general rules governing gene rearrangement within the activated adult peripheral population. Many patterns of gene rearrangement were consistent with previous studies of T cell lines. Additional points of interest were the following: 1) A large proportion of Con A-stimulated splenic cells bore no TCR gene rearrangements. 2) One splenic hybridoma exhibited an unusual gene pattern, with rearrangements, at alpha and beta, but not J gamma 1 or J gamma 2 loci. 3) Multiple gamma rearrangements were noted other than V1.2-J2 and V2-J1. 4) One hybridoma exhibited TCR gene rearrangements typical of day 14 to 15 fetal thymocytes, as well as rearrangements at immunoglobulin gene loci. 5) Among hybridomas with J alpha rearrangements, homologous chromosomes exhibited rearrangements at similar positions along the J alpha locus.     

T cell receptor gamma delta expression of Thy-1+ dendritic epidermal cells--an update

Thy-1+ dendritic epidermal cells (Thy-1+DEC) are present in the murine epidermis. They are morphologically dendritic and express Thy-1, CD3 and asialoGM1, but not CD4 or CD8. T cell receptor (TCR) of Thy-1+DEC is TCR gamma delta. Allison et al and Tonegawa et al recently found that TCR of Thy-1+DEC is V gamma 5 J gamma C gamma -V delta 1D2J2C delta and has no junctional diversity. This TCR gamma delta of Thy-1+DEC is identical to TCR expressed on the earliest fetal thymocytes. It is distinct from that of other epithelial associated lymphocytes or other thymocytes. The ligand of Thy-1+DEC is not known, although TCR gamma delta of adult type could recognize allogenic major histocompatibility complex(MHC) class I or class II and mycobacterium antigen, especially heat shock protein. The TCR of Thy-1+DEC may not be the homing receptor to epidermis. The further studies are needed to elucidate the ligands or functions of Thy-1+DEC.     

T cell receptor gamma and delta gene rearrangements in scid thymocytes. Similarity to those in normal thymocytes.

The nature of TCR gamma and delta gene rearrangements in 4- to 6-week-old scid thymocytes was examined by using the polymerase chain reaction technique, cloning, and DNA sequencing. Analysis of 78 sequences indicates that TCR gamma and delta gene rearrangements in scid mice generally resemble those in thymocytes from normal young adult mice. V gamma 1, V gamma 2, and V gamma 5 rearrangements are heterogeneous, with extensive N region addition and nucleotide excision from the recombining coding segments. In addition, homogeneous and fetal-like V gamma 3, V gamma 4, and V delta 1 rearrangements are observed. These rearrangements are currently difficult to interpret but may be significant with respect to whether certain homogeneous joints in normal mice are due to cellular selection or to the rearrangement process. scid TCR gamma and delta gene nucleotide sequences also reveal direct V-J delta joining, inter-(V-J-C gamma) cluster joining, and the possibility of inversional rearrangement at the gamma locus. Short sequence homologies may contribute to V(D)J recombination and to the rescue of blocked coding joints.     

Identification of distinct T cell receptor (TCR)-gamma delta heterodimers using an anti-TCR-gamma variable region serum

T cell hybridomas were generated from CD3+, CD4-, CD8- splenocytes and fetal thymocytes. V gamma 1-expressing proteins present on these murine TCR-gamma delta hybridomas were identified by using an anti-TCR V gamma 1 peptide serum. This antiserum specifically immunoprecipitated 41-kDa TCR V gamma-C gamma 4 chains and 31-kDa TCR V gamma-C gamma 1/2 chains from distinct heterodimers expressed on the TCR-gamma delta T cell hybridomas. The RNA from a hybridoma with a 31-kDa TCR-gamma chain hybridized with a V gamma 1 probe but failed to hybridize with a V gamma 2 probe. In contrast, the RNA from a hybridoma with a 32-kDa TCR-gamma chain hybridized with a V gamma 2 probe. This 32-kDa TCR-gamma chain was not immunoprecipitated by the anti-V gamma 1 serum. These data were consistent with the conclusion that the 31-kDa protein was the product of a V gamma 1 to C gamma 2 rearrangement, whereas the 32-kDa protein was the product of a V gamma 2 to C gamma 1 rearrangement. Furthermore, Southern analyses confirmed that the 32-kDa protein was the product of a V gamma 1.2-J gamma 2 rearrangement, and all three of the 41-kDa TCR-gamma chains were the results of V gamma 1.1-J gamma 4 rearrangements. This was the first demonstration at the clonal level of TCR-gamma proteins which use members of the V gamma 1 gene family, as well as the C gamma 2 constant region. Additional biochemical analyses of the TCR-gamma and -delta proteins from three independently derived C gamma 4-bearing T cell hybridomas suggested that most of the molecular mass diversity observed in the bulk subpopulation of peripheral C gamma 4-containing heterodimers may be contributed by the TCR-delta chains.     

Diversity, rearrangement, and expression of murine T cell gamma genes

Although the T cell gamma genes are similar in many respects to T cell receptor alpha and beta genes, earlier studies suggested that only a single gamma variable (V gamma) gene is expressed in mature T cells. We report the isolation and characterization of three new rearranged V gamma genes from murine fetal thymocytes. Although each of the new V gamma gene rearrangements is present in fetal thymocytes, two of them are undetectable in mature T cells. The levels of mRNA corresponding to each type of V gamma gene rearrangement in mature T cells are dramatically diminished compared with those in fetal thymocytes, although the abundance of two of the rearranged genes is increased in mature T cells. Our results demonstrate that there is significant expressed variability of gamma genes in immature T cells. Furthermore, the dynamics of gamma gene rearrangement and expression support the idea that gamma genes function in immature T cells.     

Most IL-4-producing gamma delta thymocytes of adult mice originate from fetal precursors

Thy-1(dull) gammadelta T cells constitute a distinct adult gammadelta T cell subset characterized by the expression of a TCR composed of Vgamma1Cgamma4 and Vdelta6Cdelta chains with limited junctional sequence diversity. However, several features of the expressed Thy-1(dull) TCR-gammadelta genes, in particular the absence or minimal presence of N region diversity and the almost invariable Ddelta2-Jdelta1 junction, are typical of rearrangements often found in the fetal thymus. In this study, we have investigated the origin of these cells. Few Thy-1(dull) gammadelta thymocytes developed in syngeneic radiation adult chimeras, regardless of whether the recipient mice were given adult bone marrow or fetal liver cells as a source of hemopoietic precursors. In contrast, normal numbers of Thy-1(dull) gammadelta T cells developed in fetal thymi grafted into adult syngeneic recipients. Interestingly, the majority of Thy-1(dull) gammadelta thymocytes present in the grafts were of graft origin, even when most conventional gammadelta and alphabeta thymocytes in the grafted thymi originated from T cell precursors of recipient origin. Single-cell PCR analyses of the nonselected TCR-gamma rearrangements present in adult Thy-1(dull) gammadelta thymocytes revealed that more than one-half of these cells represent the progenies of a limited number of clones that greatly expanded possibly during the first weeks of life. Finally, the second TCR-delta allele of a large number of Thy-1(dull) gammadelta T cells contained incomplete TCR-delta rearrangements, thus providing an explanation for the adult-type rearrangements previously found among nonfunctional V(D)J rearrangements present in Thy-1(dull) gammadelta thymocytes.     

Junctional sequences of T cell receptor gamma delta genes: implications for gamma delta T cell lineages and for a novel intermediate of V-(D)-J joining

Nucleotide sequences of a large number of V-(D)-J junctions of T cell receptor (TCR) gamma and delta genes show that most fetal thymocytes express on their surface one of just two gamma delta TCRs known to be expressed by epidermal gamma delta T cells (s-IEL) or intraepithelial gamma delta T cells associated with female reproductive organs (r-IEL). In contrast, gamma delta TCRs expressed on adult thymocytes are highly diverse as a result of multiple combinations of gene segments as well as junctional deletions and insertions, indicating that developmental time-and cell lineage-dependent mechanisms exist that control the extent of gamma delta TCR diversity. In addition, this study revealed a new type of junctional insertion (P nucleotides), which led to a new model of V-(D)-J joining generally applicable to immunoglobulin and TCR genes.     

Systematic development of distinct T cell receptor-gamma delta T cell subsets during fetal ontogeny

To elucidate the developmental pattern and diversity of murine cluster of differentiation (CD)3-associated TCR-gamma delta heterodimers, adult and fetal thymocytes were examined for cell-surface expression of various gamma- and delta-encoded TCR. Biochemical analysis, using antisera specific for distinct C gamma gene products, revealed the presence of T cells expressing C gamma 1 and/or C gamma 4 heterodimers in adult and fetal CD4- CD8- thymocyte populations. Although CD4-CD8- thymocyte populations express both C gamma 1 and C gamma 4 TCR-gamma delta heterodimers early in fetal thymus development, the relative level of C gamma 4-expressing T cells was significantly lower than previously observed in peripheral lymphoid organs. In addition, biochemical studies revealed the presence of TCR-gamma delta heterodimer(s) expressed during fetal ontogeny which were not detected in adult thymocyte or peripheral lymphoid populations. Studies of N-glycosylation patterns of one of these heterodimers suggested that it contained a rearranged V gamma 3/C gamma 1 gene product. To examine in detail individual TCR-gamma delta heterodimers, a panel of TCR-gamma delta expressing hybridomas was prepared. Biochemical analysis at the clonal level revealed that indeed three distinct TCR-gamma delta heterodimers were present at day 16 of fetal thymus development, with TCR-gamma-chains most likely encoded by V gamma 2/C gamma 1, V gamma 3/C gamma 1, and V gamma/C gamma 4. Together these findings suggest an ordered development of TCR-gamma delta T cells in the thymus and selective expression of distinct TCR-gamma delta subsets in peripheral lymphoid organs such as spleen and lymph nodes.     

Identification and characterization of TCRγ and TCRδ chains in channel catfish,Ictalurus punctatus

Channel catfish, Ictalurus punctatus, T cell receptors (TCR) γ and δ were identified by mining of expressed sequence tag databases, and full-length sequences were obtained by 5′-RACE and RT-PCR protocols. cDNAs for each of these TCR chains encode typical variable (V), diversity (D), joining (J), and constant (C) regions. Three TCRγ V families, seven TCRγ J sequences, and three TCRγ C sequences were identified from sequencing of cDNA. Primer walking on bacterial artificial chromosomes (BACs) confirmed that the TRG locus contained seven TRGJ segments and indicated that the locus consists of (Vγ3-Jγ6-Cγ2)–(Vγ1_n-Jγ7-Cγ3)–(Vγ2-Jγ5-Jγ4-Jγ3-Jγ2-Jγ1-Cγ1). In comparison for TCRδ, two V families, four TCRδ D sequences, one TCRδ J sequence, and one TCRδ C sequence were identified by cDNA sequencing. Importantly, the finding that some catfish TCRδ cDNAs contain TCR Vα-D-Jδ rearrangements and some TCRα cDNAs contain Vδ-Jα rearrangements strongly implies that the catfish TRA and TRD loci are linked. Finally, primer walking on BACs and Southern blotting suggest that catfish have four TRDD gene segments and a single TRDJ and TRDC gene. As in most vertebrates, all three reading frames of each of the catfish TRDD segments can be used in functional rearrangements, and more than one TRDD segment can be used in a single rearrangement. As expected, catfish TCRδ CDR3 regions are longer and more diverse than TCRγ CDR3 regions, and as a group they utilize more nucleotide additions and contain more nucleotide deletions than catfish TCRγ rearrangements.     

Murine thymomas induced by fractionated-X-irradiation have specific T-cell receptor rearrangements and characteristics associated with day-15 to -16 fetal thymocytes.

We report here that specific T-cell receptor rearrangements were observed in fractionated-X-irradiation-induced murine leukemias. Consistent gamma-chain rearrangements, limited beta-chain rearrangements, and no detectable alpha-chain rearrangements were observed. Gene expression studies revealed that, in comparison with normal thymus tissue, expression of alpha T-cell receptor genes was lower in the thymomas, beta expression was much higher but approximately equal to that of normal thymocytes, and gamma expression was significantly increased. After coupling these data with those from analyses using reagents against other surface markers, such as Lyt-2, L3T4, H-2, IL-2R and MEL-14, we concluded that the target T cells for fractionated-X-irradiation-induced transformation resemble fetal thymocytes from days 15 and 16 of gestation.     

Chimeric gamma-delta signal joints. Implications for the mechanism and regulation of T cell receptor gene rearrangement.

Rearrangement of Ag receptor genes requires recognition by the lymphocyte recombinase of heptamer-nonamer signal sequences followed by two endonucleolytic cleavages and two DNA ligations to form the coding and signal joints. The phenomenon of trans-rearrangement, in which Ag receptor gene segments located on different chromosomes recombine to yield chimeric products, provides an in vivo system in which to investigate the ability of the recombinase to carry out each of these functions in trans. Trans-rearrangements between TCRG and TCRD loci, similar in structure and frequency to those observed previously in human lymphoid tissues, were demonstrated in normal mouse thymus by PCR with crossed V gamma/J delta and V delta/J gamma primer pairs. A simple mechanistic model for trans-rearrangement was then tested. This model posits an ability of the recombinase to catalyze the formation of both coding and signal joints in trans and therefore predicts that trans-rearrangements will generate chimeric signal joints. In adult thymus, chimeric D delta 2-J gamma 1 and D delta 2-J gamma 2 signal joints, containing fused heptamer-nonamer sequences, could be detected by PCR and were each present at frequencies sufficient to account for a large proportion of the corresponding TCRG/TCRD trans-rearrangements. In agreement with the predictions of the model, chimeric signal joints were found as both linear chromosomal and circular episomal DNA. The results provide a framework for understanding the formation of chromosomal translocations in normal and neoplastic lymphoid cells and support the possibility of a looping mechanism for standard gene rearrangement. To test the form of regulation of TCRG rearrangement, the frequencies of specific signal joints from standard and trans-rearrangements were compared. Although J gamma 1 and J gamma 2 segments participated with equal frequency in trans-rearrangement with D delta 2, only the J gamma 1 segment participated in standard rearrangement with V gamma 5. The results suggest that V-J recombination in the TCRG locus is regulated directly at the DNA level by cis-acting constraints which do not affect the accessibility of individual TCRG gene segments to recombination in trans.     

Circulating CD3+/T cell receptor V gamma 3+ fetal murine thymocytes home to the skin and give rise to proliferating dendritic epidermal T cells.

The presence of CD3/TCR V gamma 3 moieties on both dendritic epidermal T cells (DETC) and fetal murine thymocytes has led to the concept that fetal thymocytes expressing this particular TCR phenotype are the actual DETC precursors. To test this assumption, we injected i.v. thymocyte suspensions prepared from day 16 and day 19 fetal mice as well as from adult animals, into syngeneic and Thy-1-disparate nude mice, the epidermis of which contains only Thy-1+/CD3- lymphocytes. Phenotypic analysis of the recipient epidermis by in situ immunolabeling revealed that injection of day 16 and day 19 fetal, but not of adult, thymocytes resulted in the appearance of distinct clusters of DETC as judged by their dendritic morphology and uniform expression of CD3/TCR V gamma 3 receptors. The presence of CD3+/TCR V gamma 3+ cells in the fetal, but not in the adult, thymocyte population(s) together with the failure to detect DETC after transfer of Thy-1+/CD3- fetal thymocytes strongly suggest that CD3+/TCR V gamma 3+ thymocytes are the DETC precursors. Kinetic studies of the DETC population from 2 to 12 wk after cell transfer revealed a substantial increase in the cell density within the DETC clusters that was not accompanied by an increase in the number of clusters. Thus, it appears that newly arriving DETC undergo proliferative activity in situ. Collectively, our results show that, under the experimental conditions chosen, CD3+/TCR V gamma 3+ fetal thymocytes are actual DETC precursors. Although it is not clear whether these experimental conditions are representative of the in vivo situation, they may serve as a useful model for studying the mechanisms underlying the homing properties of different lymphocyte subsets.     

Gamma delta T cell receptor analysis supports a role for HSP 70 selection of lymphocytes in multiple sclerosis lesions.

BACKGROUND: Interactions between gamma delta T cells and heat shock proteins (HSP) have been proposed as contributing factors in a number of diseases of possible autoimmune etiology but definitive evidence to support this hypothesis has been lacking. In multiple sclerosis (MS), a chronic inflammatory neurologic disease, HSP and gamma delta T cells are known to colocalize in brain lesions. Analysis of T cell receptor (TCR) gene usage in these lesions has detected evidence of clonality within both the V delta 2-J delta 1 and V delta 2-J delta 3 populations of gamma delta T cells. In our own studies, using direct sequence analysis, a dominant V delta 2-J delta 3 TCR sequence was found in 9 MS brain samples, suggesting a response to a common antigen. In this report, we have examined gamma delta T cell receptor gene usage in MS peripheral blood T cell lines selected for reactivity to HSP 70. MATERIALS AND METHODS: TCR rearrangement patterns for V delta 2-J delta 1 and V delta 2-J delta 3 were studied using the polymerase chain reaction (PCR) and a direct sequencing technique in populations of peripheral blood mononuclear cells (PBMC) cultured with Mycobacterium tuberculosis (M. tuberculosis) purified protein derivative (PPD) and then selected for reactivity to a 70-kD heat shock protein (HSP70). Cells were obtained from health donors, patients with MS, and patients with tuberculosis (TB). PCR products were subjected to direct sequence analysis to look for evidence for clonality within these T cell lines and to define the sequence of the V-D-J (CDR3) region of the TCR. RESULTS: In freshly isolated PBMC, both V delta 2-J delta 1 and V delta 2-J delta 3 gene rearrangement patterns were detected, whereas in HSP70+ T cell lines the predominant delta chain rearrangement pattern was V delta 2-J delta 3. Direct sequence analyses indicated that in cells reactive with HSP70 the V delta 2-J delta 3 sequences were usually oligoclonal and used D delta 3 exclusively. In four of four MS and two of three TB patients, the oligoclonal sequences in the HSP70+ T cell lines were identical to one another and to a dominant sequence previously detected in MS brain lesions. In two of three HSP70+ T cell lines from healthy controls, the oligoclonal sequences differed from those found in both groups of patients but were identical to one another except for a small region of heterogeneity in the second N region. In contrast, in freshly isolated PBMC or in PPD+HSP70- T cell lines, the V delta 2-J delta 3 gene rearrangement patterns were usually polyclonal and dominant sequences were rarely identified. CONCLUSIONS: These results support the conclusion that a subpopulation of gamma delta T cells in MS lesions are responding to HSP 70 and that non-CNS-specific antigens contribute to the pathogenesis of MS.     

Rearrangement and junctional-site sequence analyses of T-cell receptor gamma genes in intestinal intraepithelial lymphocytes from murine athymic chimeras.

The molecular organization of rearranged T-cell receptor (TCR) gamma genes intraepithelial lymphocytes (IEL) was studied in athymic radiation chimeras and was compared with the organization of gamma gene rearrangements in IEL from thymus-bearing animals by polymerase chain reaction and by sequence analyses of DNA spanning the junction of the variable (V) and joining (J) genes. In both thymus-bearing mice and athymic chimeras, IEL V-J gamma-gene rearrangements occurred for V gamma 1.2, V gamma 2, and V gamma 5 but not for V gamma 3 or V gamma 4. Sequence analyses of cloned V-J polymerase chain reaction-amplified products indicated that in both thymus-bearing mice and athymic chimeras, rearrangement of V gamma 1.2 and V gamma 5 resulted in in-frame as well as out-of-frame genes, whereas nearly all V gamma 2 rearrangements were out of frame from either type of animal. V-segment nucleotide removal occurred in most V gamma 1.2, V gamma 2, and V gamma 5 rearrangements; J-segment nucleotide removal was common in V gamma 1.2 but not in V gamma 2 or V gamma 5 rearrangements. N-segment nucleotide insertions were present in V gamma 1.2, V gamma 2, and V gamma 5 IEL rearrangements in both thymus-bearing mice and athymic chimeras, resulting in a predominant in-frame sequence for V gamma 5 and a predominant out-of-frame sequence for V gamma 2 genes. These findings demonstrate that (i) TCR gamma-gene rearrangement occurs extrathymically in IEL, (ii) rearrangements of TCR gamma genes involve the same V gene regardless of thymus influence; and (iii) the thymus does not determine the degree to which functional or nonfunctional rearrangements occur in IEL.     

Limited diversity of gamma delta antigen receptor genes of Thy-1+ dendritic epidermal cells

T cells bearing gamma delta antigen receptors constitute minor populations in most peripheral lymphoid tissues but represent the major populations of T cells in certain epithelia, including the epidermis. We show that murine dendritic epidermal cell (dEC) clones express V gamma and V delta gene segments, which are rare in adult T cells but predominate in fetal thymocytes. Analysis of the junctions of the rearranged gamma and delta genes shows a striking homogeneity among the receptors of five dEC clones. Our data support a model in which dECs represent one of perhaps several waves of emigrants from the early fetal thymus, and imply a role for dECs in immune surveillance that is distinct from that of alpha beta- and other gamma delta-bearing T cells.