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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.
...
PMID:A fine-structure deletion map of human chromosome 11p: analysis of J1 series hybrids. 259 51
Chromosomal rearrangements involving band 12p13 are found in a wide variety of human leukemias but are particularly common in childhood acute lymphoblastic leukemia. The genes involved in these rearrangements, however, have not been identified. We now report the cloning of a t(12;21) translocation breakpoint involving 12p13 and 21q22 in two cases of childhood pre-B acute lymphoblastic leukemia, in which t(12;21) rearrangements were not initially apparent. The consequence of the translocation is fusion of the helix-loop-helix domain of
TEL
, an ETS-like putative transcription factor, to the DNA-binding and transactivation domains of the transcription factor AML1. These data show that
TEL
, previously shown to be fused to the platelet-derived growth factor receptor beta in chronic myelomonocytic leukemia, can be implicated in the pathogenesis of
leukemia
through its fusion to either a receptor tyrosine kinase or a transcription factor. The
TEL
-AML1 fusion also indicates that translocations affecting the AML1 gene can be associated with lymphoid, as well as myeloid, malignancy.
...
PMID:Fusion of the TEL gene on 12p13 to the AML1 gene on 21q22 in acute lymphoblastic leukemia. 776 24
In human
leukemia
, activation of the ABL proto-oncogene locus on chromosome 9 most commonly occurs as a result of its fusion to the BCR locus on chromosome 22. The resulting chimeric protein displays an elevated tyrosine kinase activity. We have identified a novel activation of ABL which involves a gene located on chromosome 12, designated
TEL
. Like BCR,
TEL
is fused in-frame with ABL and produces a fusion protein with an elevated tyrosine kinase activity when assayed in an immune complex. The amino-terminal sequences of
TEL
encode a helix-loop-helix motif which may mediate dimerization.
...
PMID:The novel activation of ABL by fusion to an ets-related gene, TEL. 780 37
Translocation t(12;21) has been described as a nonrandom event in acute lymphoblastic leukemia (ALL) in patients with deletion of the short arm of chromosome 12, using fluorescence in situ hybridization techniques. Extensive FISH experiments were performed in order to re-examine the short arm of chromosome 12 in three children with ALL, previously shown to have t(12;21). It was shown that the t(12;21) is undetectable by routine R-banding technique and that the translocated 12 looks like a cytogenetically normal chromosome 12 in the three patients. Partial 12p deletion involving the
TEL
locus was shown to be interstitial in one patient with 12p- by using cosmid and YAC probes. In the second patient, the 12p- chromosome was secondary to the translocation since it was observed in about one half of the metaphases analyzed with FISH. In the third patient, the region of
TEL
usually rearranged in the t(12;21) displayed a germline pattern by Southern blotting, at diagnosis and in relapse. A few metaphases showed associated 12p- by standard cytogenetics, only in relapse. Thus we conclude that the
TEL
allele not involved in t(12;21) is inconstantly lost in patients with this subtype of ALL and occurs on the 12p- chromosome. These data question the status of tumor suppressor gene hypothesized for
TEL
.
Leukemia
1996 Jan
PMID:Deletion of the short arm of chromosome 12 is a secondary event in acute lymphoblastic leukemia with t(12;21). 855 23
The t(12;21)(p13;q22) is identified by routine cytogenetics in less than 0.05% of pediatric acute lymphoblastic leukemia (ALL) patients. This translocation encodes a
TEL
/AML-1 chimeric product comprising the helix-loop-helix domain of
TEL
, a member of the ETS-like family of transcription factors, fused to AML-1, the DNA-binding subunit of the AML-1/CBF beta transcription factor complex. Both
TEL
and AML-1 are involved in several myeloid leukemia-associated translocations with AML-1/CBF beta being altered in 20-30% of de novo acute myeloid leukemia (AML) cases. We now demonstrate that a
TEL
/AML1 chimeric transcript encoded by a cryptic t(12;21) is observed in 22% of pediatric ALL, making it the most common genetic lesion in these patients. Moreover,
TEL
/AML1 expression defined a distinct subgroup of patients characterized by an age between 1 and 10 years, B lineage immunophenotype, non-hyperdiploid DNA content and an excellent prognosis. These data demonstrate that molecular diagnostic approaches are invaluable in identifying clinically distinct subgroups, and that the AML1/CBF beta transcription complex is the most frequent target of chromosomal rearrangements in human
leukemia
.
Leukemia
1995 Dec
PMID:TEL/AML1 fusion resulting from a cryptic t(12;21) is the most common genetic lesion in pediatric ALL and defines a subgroup of patients with an excellent prognosis. 860 6
Recently, a new recurrent t(12;21)(pl3;q22) has been identified in a B-cell lineage childhood acute lymphoblastic leukemia (ALL). The translocation results in a fusion of two known genes, ETV6/
TEL
(12p13) and AML1 (21q22), previously shown to be involved in the pathogenesis of myeloid disorders. We report results of cytogenetic fluorescence in situ hybridization and molecular studies of a B-cell childhood common ALL with a cryptic 12;21 translocation. Aberrations identified in this case involve both chromosomes 12 and include not only the ETV6-AML1 gene fusion and two different microdeletions of ETV6 but also the hemizygous loss of CDKN1B, D12S119, and KRAS2 loci and a putative rearrangement of the second CDKN1B allele as a result of an inv(12)(p13q24). Moreover, it was shown that the AML1-ETV6 reciprocal chimeric transcript was not present in the malignant cells, and hence may not play a major role in leukemogenesis. In addition, the putative loss of wild-type function of CDKN1B and ETV6 could indicate a synergistic effect of both genes in the pathogenesis of this
leukemia
case.
...
PMID:Biallelic alterations of both ETV6 and CDKN1B genes in a t(12;21) childhood acute lymphoblastic leukemia case. 865 12
Despite its rarity by routine karyotypic analysis, cryptic t(12;21)(p12-13;q22) translocation leading to
TEL
/AML1 fusion has been recognized as the most frequent genetic rearrangement in childhood acute lymphoblastic leukemia (ALL) in two recent studies, one from France and the other from the United States. To estimate the frequency of this abnormality in the Chinese population, we studied 41 children with ALL and 17 with acute myeloid leukemia (AML) in two medical centers in Taiwan, using the reverse transcriptase polymerase chain reaction (RT-PCR) assay. Results of this analysis demonstrated a 17% frequency of this translocation in the ALL population overall and 19% in patients with B-lineage ALL, similar to previous findings in Caucasian children. None of the patients with AML had
TEL
/AML1 fusion transcripts. In addition to its association with the B-lineage immunophenotype,
TEL
/AML1 was also correlated with a low presenting leukocyte count and favorable age (1-10 years). These findings, combined with earlier reports, indicate that
TEL
/AML1 fusion is the most frequent genetic abnormality in childhood ALL, regardless of race. Molecular diagnosis of t(12;21)-positive ALL may identify a subgroup of patients who do not require intensive treatment for cure.
Leukemia
1996 Jun
PMID:High incidence of TEL/AML1 fusion resulting from a cryptic t(12;21) in childhood B-lineage acute lymphoblastic leukemia in Taiwan. 866 57
The t(12;21) (p 13; q22) results in the fusion of the
TEL
gene located on chromosome 12 with the AML1 gene located on the derivative chromosome 21. Because this translocation is difficult to detect using standard cytogenetic techniques, 27 previously karyotyped B-lineage acute lymphoblastic leukemia (ALL) cell lines were evaluated for the presence of the
TEL
-AML1 fusion using the reverse transcriptase-polymerase chain reaction (RT-PCR), fluorescence in situ hybridization (FISH), and cDNA sequencing. Six cell lines expressed the
TEL
-AML1 chimeric transcript by RT-PCR and the t(12;21) was confirmed by FISH analysis with probes for
TEL
, AML1, and chromosome 12. While only one of the 6 cell lines with the t(12;21) lost the der(12)t(12;21)-encoded AML1-
TEL
fusion transcript, 4 cell lines lacked expression of the nontranslocated allele of
TEL
and 5 cell lines lacked expression of CDKN2. Moreover, in 2 patients (1 with the
TEL
-AML1 transcript and 1 without),
TEL
expression was lost with disease progression; le,
TEL
was expressed in the initial cell lines (established at diagnosis or first relapse) whereas
TEL
was not expressed in the cell lines established from these patients in late-stage disease. These data show the coexistence of multiple genetic defects in childhood B-lineage ALL Cell lines with t(12;21) will facilitate the study of
TEL
-AML1 and AML1-
TEL
fusion proteins as well as
TEL
and CDKN2 gene inactivation in
leukemia
transformation and progression.
...
PMID:TEL-AML1 translocations with TEL and CDKN2 inactivation in acute lymphoblastic leukemia cell lines. 870 31
Cryptic t(12;21)(p12-13;q22) leading to
TEL
-AML1 fusion has recently been recognized as the most frequent genetic rearrangement in childhood acute lymphoblastic leukemia (ALL) in Western countries. More recently, we found a similar frequency of this abnormality in Chinese children with ALL in Taiwan. In this study, we assessed further the frequency of
TEL
-AML1 fusion as well as that of BCR-ABL in Chinese adults with ALL, using reverse transcriptase-polymerase chain reaction assays. Among the 81 cases with newly diagnosed B lineage ALL studied, none had the
TEL
-AML1 fusion whereas 30 had the BCR-ABL fusion. The lack of cases with the
TEL
-AML1 fusion together with the high frequency of BCR-ABL fusion could largely account for the poorer outcome of adult ALL as compared with childhood ALL.
Leukemia
1996 Sep
PMID:Lack of TEL-AML1 fusion transcript resulting from a cryptic t(12;21) in adult B lineage acute lymphoblastic leukemia in Taiwan. 875 62
We investigated
TEL
/AML1 fusion mRNA in 108 children with acute lymphoblastic leukemia (ALL) (86 B-lineage ALL, 15 T-ALL, two mixed lineage ALL, and five other phenotypes) using reverse transcriptase-polymerase chain reaction (RT-PCR).
TEL
/AML1 transcripts were found in 14 patients (13%) including three relapsed patients, and were unexceptionally limited to B-lineage ALL patients. The incidence of
TEL
/AML1 transcripts among B-lineage ALL was 16% (14/86). The reciprocal AML1/
TEL
transcripts were detected in 12 (86%) of the 14 cases expressing a
TEL
/AML1 transcript. In three cases, the
TEL
gene was fused to exon 3 of the AML1 gene, and to exon 2 in the remaining cases. To evaluate the amount of
TEL
/AML1 molecules for the quantification of a minimal residual disease (MRD), a plasmid vector which contained either a long
TEL
/AML1 PCR product (464 bp) or a short one (425 bp) was used as a competitor. We amplified RNAs obtained from bone marrow (BM) at complete remission or from peripheral blood stem cell (PBSC) harvests in two representative cases. For one PBSC harvest showing a positive result, a competitive PCR was carried out to quantify the amount of MRD. A 1:4 dilution series of competitor vectors was constructed, and each vector was added to a PCR reaction which contain a constant amount of cDNA obtained from the PBSC harvest. An equivalent point was compared to that of corresponding samples at diagnosis. Using this method, MRD in the PBSC harvest was 3.9:10(3). Our results elucidated the incidence, lineage-specificity, and variant forms of
TEL
/AML1 fusion transcripts in childhood ALL. Since the percentage of other chromosomal translocations in childhood ALL is not more than 5%,
TEL
/AML1 transcript would be the most feasible clone-specific marker for these patients. In addition, our method could be a powerful tool for quantification of the
TEL
/AML1 transcript and for the detection of MRD.
Leukemia
1996 Sep
PMID:Detection and quantification of TEL/AML1 fusion transcripts by polymerase chain reaction in childhood acute lymphoblastic leukemia. 875 64
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