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Symptom
Drug
Enzyme
Compound
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Query: UMLS:C0023467 (
acute myeloid leukemia
)
35,200
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The
AML1
gene was rearranged in leukemic cells with t(8;21)(q22;q22) or its variant, complex t(8;V;21) translocations from 33
acute myeloid leukemia
(
AML
) patients. The
AML1
rearrangement was also detected in three
AML
patients without t(8;21); two had a normal diploid karyotype, and one had a karyotype of 45,X, - X. The
AML1
rearrangement in the t(8;21) breakpoint cluster region was not detected in leukemic cells with cytogenetic abnormalities other than t(8;21), or with normal diploidy obtained from 23
AML
patients. Because leukemic cells of the five patients with complex t(8;V;21) translocations had a der(8)t(8;21) chromosome with a break in band 8q22 in common, the juxtaposition of the 5' side of
AML1
to a predicted counterpart gene located in the breakpoint region of 8q22 may be an essential step in the leukemogenesis of
AML
with t(8;21). Our findings show that the 8;21 translocation, its variants, and the masked t(8;21) may all be detectable by the Southern hybridization method using the
AML1
probes.
...
PMID:The 8;21 chromosome translocation in acute myeloid leukemia is always detectable by molecular analysis using AML1. 845 3
The t(8;21) translocation breakpoint, which is observed in
acute myeloid leukemia
(
AML
), has recently been cloned and a fusion transcript identified. We have now designed primer sets capable of amplifying the breakpoint junction of the fusion transcript by the reverse transcription-polymerase chain reaction (RT-PCR). Primer set 821U/821D1 amplified a 200-bp DNA fragment, and primer set 821U/821D2 amplified a 1.2-kb DNA fragment in all t(8;21)-positive
AML
tested. Sequence analysis of the amplified DNA fragments demonstrated that all fusion transcripts were fused at exactly the same site, indicating that this translocation breakpoint occurs within a single intron of the
AML1
and ETO genes. Forty-five cycles of RT-PCR were used to detect residual t(8;21)-positive leukemia cells in three patients who had been in complete remission for 1, 3 and 5 years. Minimal residual disease was found in all three samples. Northern blot analysis demonstrated that two fusion transcripts of 7 and 10 kb were expressed in the t(8;21)-positive
AML
and that the ETO gene is not normally expressed in the hematopoietic system. Expression of a normal 5.5-kb ETO mRNA was found in the lung. From these results we concluded that expression of the ETO gene in t(8;21)-positive
AML
was activated as a result of the translocation.
...
PMID:Expression of AML1-ETO fusion transcripts and detection of minimal residual disease in t(8;21)-positive acute myeloid leukemia. 845 49
A nonrandom translocation between chromosomes 3 and 21, t(3;21)(q26.2;q22) has been detected in patients with a myelodysplastic syndrome or
acute myeloid leukemia
after treatment (t-MDS/t-AML) for a primary malignant disease and in chronic myelogenous leukemia in blast crisis (CML-BC). In these patients, the breakpoint on chromosome 21 is at band 21q22. This band is also involved in the t(8;21)(q22;q22) detected in 40% of the patients with
acute myeloid leukemia
subtype M2 (AML-M2) de novo who have an abnormal karyotype. In the t(8;21), the
AML1
gene is the site of the breakpoint on chromosome 21. The
AML1
gene is transcribed from telomere to centromere, and in the t(8;21) the 5' part of
AML1
is fused to the ETO gene on chromosome 8 to produce the chimeric
AML1
/ETO on the der(8) chromosome. We found that
AML1
is also rearranged in two t-
AML
patients and in one CML-BC patient with the t(3;21), but the breakpoints are approximately 40 to 60 kb downstream to those of
AML
-M2 patients. This region contains at least one additional exon of
AML1
, as determined by using an
AML1
cDNA as a probe in Southern blot analysis. The t(3;21) breakpoints for the remaining patients could not be determined because, by fluorescence in situ hybridization analysis, the breaks are outside of the region covered by the available probes.
...
PMID:Involvement of the AML1 gene in the t(3;21) in therapy-related leukemia and in chronic myeloid leukemia in blast crisis. 849 Jan 81
The 8;21 translocation is one of the most common chromosomal translocations in
acute myelogenous leukemia
(
AML
), accounting for 40% of pediatric AML with French-American-British (FAB)-M2 morphology. The chromosomal breakpoints have recently been identified at the molecular level and shown to involve the
AML1
gene on chromosome 21 and the ETO gene on chromosome 8. Translocation results in the consistent fusion of these genes on the der(8) chromosome, resulting in the production of a novel chimeric gene and message. Using oligonucleotide primers derived from the
AML1
and ETO cDNAs, we were able to amplify a specific fusion transcript from 26 of 26 patients with t(8;21) by a reverse transcriptase polymerase chain reaction (PCR) approach. DNA fragments of identical size were generated from each case including two with complex translocations. Studies on the sensitivity and specificity of this approach show that PCR analysis can be used as a rapid, accurate, and sensitive means for detecting this chromosomal abnormality, and for following the patients' response to therapy.
...
PMID:An AML1/ETO fusion transcript is consistently detected by RNA-based polymerase chain reaction in acute myelogenous leukemia containing the (8;21)(q22;q22) translocation. 849 24
The t(8;21) translocation, commonly found in
acute myelogenous leukemia
(
AML
), generates a fusion protein containing N-terminal
AML1
and C-terminal ETO amino acids. The human
AML1
gene encodes several related proteins that specifically bind to the sequence TGT/cGGT, located in the promoter regions of a variety of hematopoietic growth factor genes. To examine the abilities of the AML1B protein (which contains 479 amino acids), a shorter AML1A isoform (which contains amino acids 1-250), and the
AML1
/ETO fusion protein (which contains AML1A amino acids 1-177) to stimulate transcription from the GM-CSF promoter, we performed co-transfection experiments in T cells using a human GM-CSF promoter-CAT reporter gene plasmid and expression vectors that contain the cDNAs for one of the above proteins. Our data demonstrate that AML1B, but not AML1A or
AML1
/ETO transactivates the GM-CSF promoter, requiring the TGTGGT sequence contained between base pairs -68 and -53. Furthermore, we show that
AML1
/ETO, but not AML1A, inhibits the ability of AML1B to stimulate CAT expression. Electrophoretic mobility shift assays demonstrated the specific binding of
AML1
proteins to the GM-CSF promoter TGTGGT sequence, which does not require GM-CSF sequences immediately upstream of this binding site. Our data support a role for AML1B as a transcriptional activator and establish that the
AML1
/ETO fusion protein can act as a dominant negative protein on the human GM-CSF promoter. Although
AML1
/ETO does not stimulate the transcription of GM-CSF, it may function by inhibiting the normal activity of AML1B in
AML
cells with the t(8;21) translocation.
...
PMID:The AML1/ETO fusion protein blocks transactivation of the GM-CSF promoter by AML1B. 854 24
Acute leukemia (AL) is a relatively uncommon, but dreaded, complication occurring with increased frequency in individuals with Down syndrome (DS). This selective update includes aspects of AL in DS in which a change or advancement in our understanding of this disease has occurred. Despite previous reports describing a worse outcome for these individuals, more recent studies have suggested an improved response to current treatment strategies (including high-dose AraC) equaling, or even surpassing, the survival of non-DS individuals with AL. An increased toxicity to methotrexate in DS patients has also been recognized. While the leukemia of DS infants has been described as megakaryoblastic, the spectrum of in vitro differentiation is much broader including (in addition to megakaryocytic colonies) various myeloid, macrophage, and even erythroid colonies. Although the cause(s) of DS-AL remains unknown, potential candidate genes include those encoded on chromosome 21 that play a role in other defined leukemias in non-DS individuals. The
AML1
/PEBP2alpha gene maps to the DS critical region and is characteristically associated with two leukemia-associated chromosomal translocations: 1) the 8;21 translocation involving an
AML1
/ETO fusion transcript commonly seen in
acute myelogenous leukemia
(
AML
) and; 2) a 3;21 translocation identified in certain chemotherapy-related myelodysplasias/leukemias and occasionally in the blast crisis of chronic myelogenous leukemia cells. Similarly, the ETS-related gene, ERG, involved in the
AML
16;21 maps to the q22 region of chromosome 21. Lastly, a familial platelet disorder with a propensity to develop myeloid leukemia has been linked to 21q22.1-22.2 and conceivably might involve
AML1
, ERG or yet another gene.
...
PMID:Down syndrome and leukemia, an update. 854 49
In a study of 23 patients with t(8;21)-associated
acute myeloid leukaemia
the
AML1
-MTG8 fusion transcript was present in the majority of serial samples obtained from 17 patients followed for up to 34 months after diagnosis, but was absent in samples from all six patients who had been in continuous complete remission for 61 months after allogeneic bone marrow transplantation (BMT), or for 52, 53, 123, 182 and 198 months, respectively, after courses of intensive chemotherapy. Previous studies showed that the
AML1
-MTG8 fusion transcript was present in most patients with this type of translocation in long-term remission. Our results indicate that blood cells of patients with t(8;21) in remission of over 10 years may not show the
AML1
-MTG8 fusion transcript, and that those of patients who have undergone allogeneic BMT or intensive chemotherapy may become fusion transcript-negative much earlier. Our study suggests that leukaemic cells with the
AML1
-MTG8 fusion transcript may survive for some time after courses of chemotherapy or BMT, but that they may eventually be eradicated by immunologic and other antileukaemic mechanisms.
...
PMID:Disappearance of AML1-MTG8(ETO) fusion transcript in acute myeloid leukaemia patients with t(8;21) in long-term remission. 854 35
AML1
, a gene encoding a protein of the PEBP2/CBF family of transcription factors is disrupted by translocations associated with human leukemia. In the t(8;21)
acute myelogenous leukemia
(
AML
),
AML1
was found fused to a gene on chromosome 8 that we designated CDR (also known as ETO and MTG8). Immunoprecipitation experiments followed by immunoblotting using a combination of antibodies against different epitopes of one of the predicted chimeric proteins encoded by a fully characterized fusion transcript enabled us to visualize a chimeric protein in the t(8;21) Kasumi-1 cell line. The estimated size of this protein is 64 kDa. Immunoblotting of leukemic blasts containing the t(8;21) detected a protein of the same size. Immunofluorescence experiments indicate that the chimeric protein is localized in the nucleus. A normal
AML1
protein of 27 kDa was also detected in t(8;21) Kasumi-1 cells. It remains to be established by which mechanism the mutant
AML1
isoform may contribute to the leukemogenesis process of t(8;21)-positive
acute myeloid leukemia
.
...
PMID:Detection and subcellular localization of an AML1 chimeric protein in the t(8;21) positive acute myeloid leukemia. 857 Feb 22
The (3;21)(q26;q22) translocation associated with treatment-related myelodysplastic syndrome, treatment-related
acute myeloid leukemia
, and blast crisis of chronic myeloid leukemia results in the expression of the chimeric genes AML1/EAP, AML1/MDS1, and
AML1
/EVI1.
AML1
(
CBFA2
), which codes for the alpha subunit of the heterodimeric transcription factor CBF, is also involved in the t(8;21), and the gene coding for the beta subunit (CBFB) is involved in the inv(16). These are two of the most common recurring chromosomal rearrangements in
acute myeloid leukemia
. CBF corresponds to the murine Pebp2 factor, and CBF binding sites are found in a number of eukaryotic and viral enhancers and promoters. We studied the effects of AML1/EAP and AML1/MDS1 at the
AML1
binding site of the CSF1R (macrophage-colony-stimulating factor receptor gene) promoter by using reporter gene assays, and we analyzed the consequences of the expression of both chimeric proteins in an embryonic rat fibroblast cell line (Rat1A) in culture and after injection into athymic nude mice. Unlike
AML1
, which is an activator of the CSF1R promoter, the chimeric proteins did not transactivate the CSF1R promoter site but acted as inhibitors of
AML1
(
CBFA2
). AML1/EAP and AML1/MDS1 expressed in adherent Rat1A cells decreased contact inhibition of growth, and expression of AML1/MDS1 was associated with acquisition of the ability to grow in suspension culture. Expression of AML1/MDS1 increased the tumorigenicity of Rat1A cells injected into athymic nude mice, whereas AML1/EAP expression prevented tumor growth. These results suggest that expression of AML1/EAP and AML1/MDS1 can interfere with normal
AML1
function, and that AML1/MDS1 has tumor-promoting properties in an embryonic rat fibroblast cell line.
...
PMID:The chimeric genes AML1/MDS1 and AML1/EAP inhibit AML1B activation at the CSF1R promoter, but only AML1/MDS1 has tumor-promoter properties. 857 11
Several recurring chromosomal translocations involve the
AML1
gene at 21q22 in myeloid leukemias resulting in fusion mRNAs and chimeric proteins between
AML1
and a gene on the partner chromosome.
AML1
corresponds to
CBFA2
, one of the DNA-binding subunits of the enhancer core binding factor CBF. Other CBF DNA-binding subunits are CBFA1 and CBFA3, also known as AML3 and AML2.
AML1
, AML2 and AML3 are each characterized by a conserved domain at the amino end, the runt domain, that is necessary for DNA-binding and protein dimerization, and by a transactivation domain at the carboxyl end.
AML1
was first identified as the gene located at the breakpoint junction of the 8;21 translocation associated with
acute myeloid leukemia
. The t(8;21)(q22;q22) interrupts
AML1
after the runt homology domain, and fuses the 5' part of
AML1
to almost all of ETO, the partner gene on chromosome 8.
AML1
is an activator of several myeloid promoters; however, the chimeric
AML1
/ETO is a strong repressor of some
AML1
-dependent promoters.
AML1
is also involved in the t(3;21)(q26;q22), that occurs in myeloid leukemias primarily following treatment with topoisomerase II inhibitors. We have studied five patients with a 3;21 translocation. In all cases,
AML1
is interrupted after the runt domain, and is translocated to chromosome band 3q26. As a result of the t(3;21),
AML1
is consistently fused to two separate genes located at 3q26. The two genes are EAP, which codes for the abundant ribosomal protein L22, and MDS1, which encodes a small polypeptide of unknown function. In one of our patients, a third gene EVI1 is also involved. EAP is the closest to the breakpoint junction with
AML1
, and EVI1 is the furthest away. The fusion of EAP to
AML1
is not in frame, and leads to a protein that is terminated shortly after the fusion junction by introduction of a stop codon. The fusion of
AML1
to MDS1 is in frame, and adds 127 codons to the interrupted
AML1
. Thus, in the five cases that we studied, the 3;21 translocation results in expression of two coexisting chimeric mRNAs which contain the identical runt domain at the 5' region, but differ in the 3' region. In addition, the chimeric transcript AML1/MDS1/EVI1 has also been detected in cells from one patient with the 3;21 translocation as well as in one of our patients. Several genes necessary for myeloid lineage differentiation contain the target sequence for
AML1
in their regulatory regions. One of them is the CSF1R gene. We have compared the normal
AML1
to AML1/MDS1, AML1/EAP and AML1/MDS1/EVI1 as transcriptional regulators of the CSF1R promoter. Our results indicate that
AML1
can activate the promoter, and that the chimeric proteins compete with the normal
AML1
and repress expression from the CSF1R promoter. AML1/MDS1 and AML1/EAP affect cell growth and phenotype when expressed in rat fibroblasts. However, the pattern of tumor growth of cells expressing the different chimeric genes in nude mice is different. We show that when either fusion gene is expressed, the cells lose contact inhibition and form foci over the monolayer. In addition, cells expressing AML1/MDS1 grow larger tumors in nude mice, whereas cells expressing only AML1/EAP do not form tumors, and cells expressing both chimeric genes induce tumors of intermediate size. Thus, although both chimeric genes have similar effects in transactivation assays of the CSF1R promoter, they affect cell growth differently in culture and have opposite effects as tumor promoters in vivo. Because of the results obtained with cells expressing one or both genes, we conclude that MDS1 seems to have tumorigenic properties, but that AML1/EAP seems to repress the oncogenic property of AML1/MDS1.
...
PMID:Rearrangement of the AML1/CBFA2 gene in myeloid leukemia with the 3;21 translocation: expression of co-existing multiple chimeric genes with similar functions as transcriptional repressors, but with opposite tumorigenic properties. 858 55
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