Human T cell gamma genes are frequently rearranged in B-lineage acute lymphoblastic leukemias but not in chronic B cell proliferations

T cell rearranging gene gamma (TRG gamma) and T cell antigen receptor beta (TCR beta) chain gene rearrangement and transcription were studied in a series of patients with B-lineage acute lymphoblastic leukemia (ALL), in which the Ig H chain genes are rearranged and the surface phenotype reproduces the stages of normal pre-B maturation. For comparison, polyclonal T cells from peripheral blood of healthy donors and blast cells from 19 cases of T lineage ALL were also studied. In this study we demonstrate the presence of a clonal rearrangement of the TRG gamma in 18 of the 22 B-lineage ALL cases and establish that this rearrangement, which generally involves the J gamma 1 region, is often monoallelic and appears different from the biallelic J gamma 2 rearrangement frequently seen in T-cell ALLs. In 9 of 22 cases, we found rearrangement of the genes of the TCR beta chain, which never involved the J beta 1 region. Conversely, the TRG gamma were seen in germline configuration in all 19 cases of B chronic lymphoid malignancies. In none of the 9 AML cases studied was TRG gamma and TCR beta chain gene rearrangement found. The TCR beta chain genes were rearranged in one B cell chronic lymphocytic leukemia (CLL). We also show that in B-lineage ALL, the cells probably use the same V gamma genes for TRG gamma rearrangements as the malignant cells in T-ALL and the polyclonal T cells. In none of the 13 B-lineage ALL cases investigated by Northern analysis was TCR beta mRNA expression detected, whereas a weak expression of TRG gamma transcripts was found in two of these cases. The correlations between surface phenotype, rearrangement of TRG gamma, TCR beta, and Ig H chain genes were analyzed. The significance of rearrangement of TRG gamma and TCR beta chain genes in B or pre-B cells is also discussed.

[1]  J. Seidman,et al.  Human T-cell γ genes contain N segments and have marked junctional variability , 1986, Nature.

[2]  M. Raffeld,et al.  3A1 (CD7) expression precedes T beta gene rearrangements in precursor T (lymphoblastic) neoplasms. , 1986, Blood.

[3]  L. Hood,et al.  Rearrangement and expression of T cell antigen receptor and gamma genes during thymic development , 1986, The Journal of experimental medicine.

[4]  M. Lefranc,et al.  Diversity and rearrangement of the human T cell rearranging γ genes: Nine germ-line variable genes belonging to two subgroups , 1986, Cell.

[5]  M. Minden,et al.  T cell receptor and immunoglobulin gene rearrangements in acute myeloblastic leukemia , 1986, The Journal of experimental medicine.

[6]  L. Hood,et al.  Introduced T cell receptor variable region gene segments recombine in pre-B cells: Evidence that B and T cells use a common recombinase , 1986, Cell.

[7]  J. Seidman,et al.  Human T-cell gamma chain genes: organization, diversity, and rearrangement. , 1986, Science.

[8]  F. Sigaux,et al.  Immunological typing of acute lymphoblastic leukemia: concurrent analysis by flow cytofluorometry and immunocytology. , 1986, Leukemia research.

[9]  M. Lefranc,et al.  Rearrangement of two distinct T-cell gamma-chain variable-region genes in human DNA. , 1986, Nature.

[10]  K. Chen,et al.  Fusion of an immunoglobulin variable gene and a T cell receptor constant gene in the chromosome 14 inversion associated with T cell tumors , 1985, Cell.

[11]  C. Croce,et al.  The t(14;18) chromosome translocations involved in B-cell neoplasms result from mistakes in VDJ joining. , 1985, Science.

[12]  T. Waldmann,et al.  Rearrangements of genes for the antigen receptor on T cells as markers of lineage and clonality in human lymphoid neoplasms. , 1985, The New England journal of medicine.

[13]  P. Pelicci,et al.  Lymphoid tumors displaying rearrangements of both immunoglobulin and T cell receptor genes , 1985, The Journal of experimental medicine.

[14]  T. Waldmann,et al.  Human γ-chain genes are rearranged in leukaemic T cells and map to the short arm of chromosome 7 , 1985, Nature.

[15]  M. Lefranc,et al.  Two tandemly organized human genes encoding the T-cell γ constant-region sequences show multiple rearrangement in different T-cell types , 1985, Nature.

[16]  M. Lefranc,et al.  The chromosomal location of T‐cell receptor genes and a T cell rearranging gene: possible correlation with specific translocations in human T cell leukaemia. , 1985, The EMBO journal.

[17]  P. Nowell,et al.  Clustering of breakpoints on chromosome 11 in human B-cell neoplasms with the t(11 ; 14) chromosome translocation , 1985, Nature.

[18]  P. Pelicci,et al.  T-cell receptor gene rearrangements as markers of lineage and clonality in T-cell neoplasms. , 1985, Proceedings of the National Academy of Sciences of the United States of America.

[19]  S. Tonegawa,et al.  Developmental regulation of T-cell receptor gene expression , 1985, Nature.

[20]  A. Palumbo,et al.  Gene for alpha-chain of human T-cell receptor: location on chromosome 14 region involved in T-cell neoplasms. , 1985, Science.

[21]  J. Woody,et al.  Partial primary structure of the alpha and beta chains of human tumor T-cell receptors. , 1985, Science.

[22]  R. Brinster,et al.  Allelic exclusion and control of endogenous immunoglobulin gene rearrangement in κ transgenic mice , 1984, Nature.

[23]  A. Palumbo,et al.  Lineage infidelity of a human myelogenous leukemia cell line. , 1984, Blood.

[24]  S. Tonegawa,et al.  A third rearranged and expressed gene in a clone of cytotoxic T lymphocytes , 1984, Nature.

[25]  M. Minden,et al.  Immunoglobulin gene rearrangement in acute myelogenous leukemia. , 1984, Cancer research.

[26]  S. Stass,et al.  Heavy chain immunoglobulin gene rearrangement in acute nonlymphocytic leukemia. , 1984, Blood.

[27]  T. Waldmann,et al.  Immunoglobulin-gene rearrangements as unique clonal markers in human lymphoid neoplasms. , 1983, The New England journal of medicine.

[28]  G. Klein Specific chromosomal translocations and the genesis of B-cell-derived tumors in mice and men , 1983, Cell.

[29]  T. Waldmann,et al.  Immunoglobulin gene rearrangement and cell surface antigen expression in acute lymphocytic leukemias of T cell and B cell precursor origins. , 1983, The Journal of clinical investigation.

[30]  T. Waldmann,et al.  Developmental hierarchy of immunoglobulin gene rearrangements in human leukemic pre-B-cells. , 1981, Proceedings of the National Academy of Sciences of the United States of America.

[31]  S. Tonegawa,et al.  Identification of D segments of immunoglobulin heavy-chain genes and their rearrangement in T lymphocytes , 1981, Nature.

[32]  A. W. Harris,et al.  The immunoglobulin μ constant region gene is expressed in mouse thymocytes , 1980, Nature.

[33]  E. Reinherz,et al.  Discrete stages of human intrathymic differentiation: analysis of normal thymocytes and leukemic lymphoblasts of T-cell lineage. , 1980, Proceedings of the National Academy of Sciences of the United States of America.

[34]  W. Rutter,et al.  Isolation of biologically active ribonucleic acid from sources enriched in ribonuclease. , 1979, Biochemistry.