Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Deletion analysis offers a powerful alternative to linkage and karyotypic approaches for human chromosome mapping. A panel of deletion hybrids has been derived by mutagenizing J1, a hamster cell line that stably retains chromosome 11 as its only human DNA, and selecting for loss of MIC1, a surface antigen encoded by a gene in band 11p13. A unique, self-consistent map was constructed by analyzing the pattern of marker segregation in 22 derivative cells lines; these carry overlapping deletions of 11p13, but selectively retain a segment near the 11p telomere. The map orders 35 breakpoints and 36 genetic markers, including 3 antigens, 2 isozymes, 12 cloned genes, and 19 anonymous DNA probes. The deletions span the entire short arm, dividing it into more than 20 segments and define a set of reagents that can be used to rapidly locate any newly identified marker on 11p, with greatest resolution in the region surrounding MIC1. The approach we demonstrate can be applied to map any mammalian chromosome. To test the gene order, we examined somatic cell hybrids from five patients, whose reciprocal translocations bisect band 11p13; these include two translocations associated with familial aniridia and two with acute T-cell leukemia. In each patient, the markers segregate in telomeric and centromeric groups as predicted by the deletion map. These data locate the aniridia gene (AN2) and a recurrent T-cell leukemia breakpoint (TCL2) in the marker sequence, on opposite sides of MIC1. To provide additional support, we have characterized the dosage of DNA markers in a patient with Beckwith-Wiedemann syndrome and an 11p15-11pter duplication. Our findings suggest the following gene order: TEL - (HRAS1, MER2, CTSD, TH/INS/IGF2, H19, D11S32) - (RRM1, D11S1, D11S25, D11S26) - D11S12 - (HBBC, D11S30) - D11S20 - (PTH, CALC) - (LDHA, SAA, TRPH, D11S18, D11S21) - D11S31 - D11S17 - HBVS1 - (FSHB, D11S16) - AN2 - MIC1 - TCL2 - delta J - CAT - MIC4 - D11S9 - D11S14 - ACP2 - (D11S33, 14L) - CEN. We have used the deletion map to show the distribution on 11p of two centromeric repetitive elements and the low-order interspersed repeat A36Fc. Finally, we provide evidence for an allelic segregation event in the hamster genome that underlies the stability of chromosome 11 in J1. The deletion map provides a basis to position hereditary disease loci on 11p, to distinguish the pattern of recessive mutations in different forms of cancer and, since many of these genes have been mapped in other mammalian species, to study the evolution of a conserved syntenic group.
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PMID:A fine-structure deletion map of human chromosome 11p: analysis of J1 series hybrids. 259 51

We have detected and cloned two rearrangements in the T-cell receptor alpha locus from a clone of somatic cell hybrids carrying a t(14;14)(q11;q32) chromosomal translocation derived from an ataxia telangiectasia patient with T-cell chronic lymphocytic leukemia. The T-cell clone carrying the t(14;14) chromosomal translocation was known to be present for greater than 10 years before the onset of overt leukemia. One molecular rearrangement of the T-cell receptor alpha locus corresponded to a functional variable-joining region (V-J) joining, whereas the other derived from the breakpoint of the t(14;14)(q11;q32) translocation. Chromosomal in situ hybridization of the probe derived from the t(14;14) breakpoint localized the breakpoint region to 14q32.1, apparently the same region that is involved in another ataxia telangiectasia characteristic chromosome translocation, t(7;14)(q35;q32). The 14q32.1 breakpoint is at least 10,000 kilobase pairs (kbp) centromeric to the immunoglobulin heavy chain locus. Sequence analysis of the breakpoint indicates the involvement of a J alpha sequence during the translocation. Comigration of high-molecular weight DNA fragments involved with t(7;14) and t(14;14) translocations suggests the presence of a cluster of breakpoints in the 14q32.1 region, the site of a putative oncogene, TCL1.
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PMID:Molecular analysis of a t(14;14) translocation in leukemic T-cells of an ataxia telangiectasia patient. 278 89

T-cell tumors are characterized by inversions or translocations of chromosome 14. The breakpoints of these karyotypic abnormalities occur in chromosome bands 14q11 and 14q32--the same bands in which the T-cell receptor (TCR) alpha-chain and immunoglobulin heavy chain genes have been mapped, respectively. Patients with ataxia-telangiectasia are particularly prone to development of T-cell chronic lymphocytic leukemia with such chromosomal abnormalities. We now describe DNA rearrangements of the TCR alpha-chain gene in an ataxia-telangiectasia-associated leukemia containing both a normal and an inverted chromosome 14. The normal chromosome 14 has undergone a productive join of TCR alpha-chain variable (V alpha) and joining (J alpha) gene segments. The other allele of the TCR alpha-chain gene features a DNA rearrangement, about 50 kilobases from the TCR alpha-chain constant (C alpha) gene, that represents the breakpoint of the chromosome 14 inversion; this breakpoint is comprised of a TCR J alpha segment (from 14q11) fused to sequences derived from 14q32 but on the centromeric side of C mu. These results imply that 14q32 sequences located at an undetermined distance downstream of the immunoglobulin C mu locus can contribute to the development of T-cell tumors.
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PMID:The breakpoint of an inversion of chromosome 14 in a T-cell leukemia: sequences downstream of the immunoglobulin heavy chain locus are implicated in tumorigenesis. 312 10

Fluorescent in situ hybridization provides a fast method for detection of specific nucleic acid sequences. We have used high-resolution, single-color fluorescent in situ hybridization with a combination centromeric-telomeric DNA probe, specific for chromosome 1, to investigate the feasibility of simultaneous assessment of numerical and structural chromosome aberrations. The K562 leukemia cell line served as a model.
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PMID:A new application of in situ hybridization: detection of numerical and structural chromosome aberrations with a combination centromeric-telomeric DNA probe. 323 43

Molecular analysis of somatic cell hybrids derived from T cells carrying a t(7;14)(q35;q32) chromosomal translocation from a patient with ataxia telangiectasia and T cell leukemia indicates that the breakpoint on chromosome 14 is proximal to the IgH locus and to the D14S1 locus, while the breakpoint on chromosome 7 involves the T cell receptor beta chain locus immediately 5' to J beta 1.5 on chromosome 7. The separation of V beta and C beta observed in somatic cell hybrids defined the orientation of the T cell receptor beta chain locus on chromosome 7 where the V beta genes are centromeric and the C beta genes are telomeric. A novel chromosomal alteration, undetected cytogenetically, was revealed as being an inversion with duplication of the distal band of chromosome 14q32. The importance of the 14q32 region in the leukemogenic process is discussed.
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PMID:Molecular analysis of a t(7;14)(q35;q32) chromosome translocation in a T cell leukemia of a patient with ataxia telangiectasia. 325 92

A putative isochromosome of the long arm of chromosome #17 was identified in bone marrow cells from each of six patients with leukemia. Adequate sample was available for detailed study in four patients, and in each of these four cases examination with multiple staining techniques implied that the rearrangement is a dicentric chromosome, dic(17)(p11.2). An asymmetry of constriction at the two centromeric regions suggested that one centromere was inactive. The data presented here suggest that many of the presumed i(17q) markers observed in leukemia may actually represent dicentric rearrangements.
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PMID:Dicentric chromosome 17 in patients with leukemia. 346 78

TCA (T Cell system A) is a di-allelic system of HLA-like antigens encoded by genes located about 15 cM telomeric to HLA-A. In normal individuals, TCA antigens are only expressed on a subpopulation of T cells, the TG lymphocytes. We now report on the expression of TCA on leukemias and other malignancies. An increased proportion of cells carrying the TCA phenotype was encountered in testing peripheral blood lymphocytes from patients with acute lymphoblastic T-cell leukemia (T-ALL), acute myeloid leukemia (AML), and chronic myeloid leukemia (CML). In contrast, patients with B-cell malignancies such as chronic lymphatic leukemia (CLL) and hairy cell leukemia (HCL) or non-T/non-B common acute lymphoblastic leukemia (common ALL) had normal proportions of TCA-positive lymphocytes. Quantitatively different levels of TCA expression are found on some melanoma cell lines and others are TCA negative. These variations are independent of the expression of HLA Class I antigens by the same cells. The expression of TCA antigens by malignant nonlymphoid cells suggests that this system may code for differentiation markers, important in the biology of neoplastic transformation.
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PMID:TCA: a polymorphic genetic marker in leukemias and melanoma cell lines. 348 57

This article reviews our data on H-40, a histocompatibility antigen controlled by a locus linked to Igh structural genes but telomeric to Tsu. The antigen is detected by rejection of H-40+ tumor cells in vivo and by the activity of H-2 restricted anti-H-40 cytotoxic T lymphocytes in vitro. H-40 is expressed on lipopolysaccharide stimulated B cells and B cell tumors that express surface(s) IgM and not on sIgM- tumors or other neoplastic cells. Its expression on the sIgM,D+ BALB/c (Igha, H-40a) derived leukemia, BCL1, prevents its transplantability across the Ig heavy chain (and H-40) barrier into C.B-20 (Ighb, H-40b) mice; whereas, BALB/c tumors that do not express H-40 can be transplanted into this allotype-congenic recipient. Although irradiated C.B-20 animals are susceptible to the BCL1 tumor, adoptive transfer of a mixture of Lyt-2+ and Lyt-2- effector cells (anti-H-40) from C.B-20 animals that have previously rejected BCL1 protect such recipients. However, the same effector cells will not protect irradiated BALB/c or (BALB/c X C.B-20)F1 recipients from this tumor. Since normal BALB/c sIg+ cells express H-40, either the effector cells are diverted from interacting with and destroying the tumor, or recognition of H-40 on non-tumor cells elicits a suppressor mechanism.
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PMID:Recognition of an Igh-linked histocompatibility antigen, H-40, on B-cell tumors by cytotoxic T lymphocytes. 392 86

Abnormalities of chromosome 1, including trisomy for all or a portion of the long arm, have been frequently reported in many cancers. Anomalies of chromosome 19 are far less common, although a t(1;19)(q23;p13) translocation has been reported in association with pre-B-cell leukemia. We have observed a t(1;19)(q12;p13) translocation in three cases of advanced melanoma, with the translocation chromosome representing an extra dose of 1q in each instance. The breakpoint on 1q was within the centromeric heterochromatin, proximal to the site in pre-B-cell leukemia, but the breakpoint on 19p appeared identical. The gene for human insulin receptor has recently been mapped to this region of chromosome 19 (p13.2-13.3). This gene shares structural and sequence homologies with the epidermal growth factor receptor (erb-B oncogene) and members of the src family of oncogenes, suggesting that alterations in the insulin receptor, resulting from chromosomal translocation, could lead to a role in tumorigenesis. The present findings may permit this possibility to be examined in a neoplasm of neuroectodermal origin.
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PMID:A t(1;19) chromosome translocation in three cases of human malignant melanoma. 394 10

C.B-20 (Ighb) but not (C.B-20 X BALB/c)F1 mice reject BCL1, a sIg+ tumor that spontaneously arose in an Igh congenic BALB/c (Igha) mouse. C.B-20 immune T cells from mice immunized with either BCL1 or BALB/c splenocytes adoptively transfer tumor protection to sublethally irradiated C.B-20 but not BALB/c or (BALB/c X C.B-20)F1 mice. These data suggest that BALB/c and BCL1 share an antigen, which if present in the host prevents the immune cells from eradicating the tumor. The antigen is controlled by H-40, a gene that maps to the C end of the Igh complex, telomeric to Tsu and in the region of Pre-1. The ability of H-40 to act as a tumor antigen for other BALB/c tumors inoculated into C.B-20 hosts was investigated. H-40 did not elicit rejection of P1798 (T lymphoma), Meth A (fibrosarcoma), or MOPC-315 (alpha, lambda myeloma) tumor cells. C.B-20 mice that previously rejected BCL1, however, showed partial resistance to a low challenge dose of the MOPC-104E (mu, lambda myeloma) tumor. These data suggest that H-40 has a differential degree of expression on BALB/c tumor cells. The ability of the adoptively transferred cells to confer protection against BCL1 is abrogated by pretreatment of the cells with anti-Lyt-1 or anti-Lyt-2 antibodies. However, an admixture of anti-Lyt-1- and anti-Lyt-2-treated cells provided protection. These data, together with the results detected by cytotoxic T lymphocyte (CTL) activity in vitro, indicate that H-40 can serve as a target antigen for tumor rejection by CTL in allogeneic hosts. The implications of the results for allogeneic bone marrow transplantation into leukemic individuals who benefit from a graft vs leukemia effect are discussed.
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PMID:H-40, an antigen controlled by an Igh-linked gene and recognized by cytotoxic T lymphocytes. II. Recognition of H-40 as a tumor antigen in leukemic animals. 643 38


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