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Query: UMLS:C0026986 (
myelodysplastic syndrome
)
14,926
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The presence of activated transforming genes was investigated in four patients with therapy-related leukemia and in three with therapy-related
myelodysplastic syndrome
. DNA of bone marrow cells from six of the patients exhibited transforming activity in the tumorigenicity assay. Five of the six patients who were positive in the tumorigenicity assay contained activated N-ras oncogenes, and three contained activated K-ras oncogenes. Thus, concurrent activation of N-ras and K-ras oncogenes was observed in two patients. In vitro DNA amplification followed by oligonucleotide dot-blot analysis was used to investigate mutations in codons 12, 13, and 61 of the N-ras and K-ras oncogenes. Two patients exhibited an N-ras mutation, substituting aspartic acid (GAT) for glycine (GGT), and three patients exhibited an N-ras codon 13 mutation, substituting valine (GTT) for glycine. Two patients exhibited K-ras codon 12 mutations, substituting aspartic acid (GAT) or cysteine (TGT) for glycine (GGT), respectively, and one case exhibited a K-ras codon 61 mutation, substituting lysine (AAA) for glutamic acid (
CAA
). Cytogenetic analysis revealed that loss of chromosome 7 was frequent (four patients: 57%). Our data indicate that activation of N-ras and K-ras genes, as well as loss of heterozygosity for specific alleles on chromosome 7, plays a more important role in the leukemogenesis of both therapy-related leukemia and
myelodysplastic syndrome
.
...
PMID:Transforming genes and chromosome aberrations in therapy-related leukemia and myelodysplastic syndrome. 185 83
After studying of familial leukemias,
Myelodysplastic Syndrome
(
MDS
) and aplastic anemia (AA), we observed and analysed bone marrow (BM) cells hematologically and molecular-cytogenetically in 36 persons who are first degree relatives (FDRs) of patients with acute leukemias (AL),
MDS
and AA. The peripheral blood (PB) lymphocyte chromosome fragility sensitive to folic acid and unstability was also analysed in 18 FDRs. The abnormal BM megakaryocystic/erythroid cellularity and the rearrangement of c-erbB were found in 66%-86.1% of parents and siblings of patients. The associations of dysplastic megakaryopoiesis, including the presence of lymphoid small megakaryocytes, with the chromosomal monosomy or/and the rearrangement/amplification of C-erbB, were found in a few parents and siblings. These results were consistent with those of
MDS
, Fanconi Anemia (FA) and AL. The normal karyotype and SCD positive of BM cells and PB lymphocytes, and PB lymphocyte chromosomal fragility and unstability were found in most of patients' parents, while familial chromosomal monosomy of BM cells and PB lymphocyte chromosomal fragility were found in parents and siblings of familial leukemia patients. Based on the studies of a large family with 7 cases of acute erythroleukamia and relative myeloleukemias in three consecutive generations and a family with 3
CAA
and 1 AML, the rearrangement of c-erbB might be inherited. The rearrangement/amplification of c-erbB and its PCR detected results could be the indicators of gene diagnosis of
preleukemia
and might be useful in genetic conselling of leukemias. The common origin of AL,
MDS
and AA was discussed.
...
PMID:[Relationship between the occurrences of AL, MDS and AA and abnormal BM proliferation of patient's parents]. 975 8
Chromosome bands 1p36 and 3p21 are known to be recurring breakpoints in therapy-related (t-) leukemia. We identified a recurring translocation, t(1;3)(p36;p21), in eight patients with various hematologic malignancies: three patients with ALL, one with chronic myelogenous leukemia (CML) in accelerated phase (AP), two with
MDS
, and two with AML(M3). Five of the eight patients had a history of chemotherapy, including alkylating agents in three, before the translocation was detected. In two of these five patients, the t(1;3)(p36;p21) emerged only at relapse or in the accelerated phase of CML. The karyotypes of the patients were complex, including -7 and structural abnormalities of 5q, 6q, 7q, 9p, and 11q23. Survival time varied among patients (25 days to more than 16 years). Using FISH with 13 1p35-36 cosmid probes (tel-FB12-CA5-G7-FD2-CB1-ED8-FD9-G32-AE3-G50-
AD8
-GG4-G43-cen), we delineated the 1p36 breakpoint in two patients with
MDS
and ALL as lying between FB12 and FD2 (between BAC47P3 and PAC963K15), with a small deletion near the breakpoint in both cases. In the patient with
MDS
, there was also a deletion at 3p21.3, as detected with the cosmid probe cosNRL9. The results of the present study suggest that t(1;3)(p36;p21) in hematologic diseases is associated with prior exposure to mutagens, including alkylating agents.
...
PMID:t(1;3)(p36;p21) is a recurring therapy-related translocation. 1197 52
The aim of this article was to explore the pathogenetic differences, as well as to provide a new way for the differential diagnosis of these two diseases by comparative analysis of CD(34)(+) cells numbers and their surface expression of granulocyte colony-stimulating factor receptor (G-CSFR) and granulocyte-macrophage colony-stimulating factor receptor (GM-CSFR) in patients with aplastic anemia (AA) and
myelodysplastic syndrome
(
MDS
). Twenty-seven patients with AA, 45 patients with
MDS
, and 20 normal controls were enrolled in this study. The ratio of CD(34)(+) cells and their surface expression of G-CSFR and GM-CSFR were detected by flow cytometry (FCM). The ratio of CD(34)(+) cells in BMMNC of AA,
MDS
patients and controls were 0.2438 +/- 0.1129%, 2.1677 +/- 1.1345% and 1.0792 +/- 0.3221%, respectively. Compared with normal controls as well as
MDS
patients, the ratio of CD(34)(+) cells in BMMNC of AA was significantly reduced (P < 0.05). The ratio of CD(34)(+) cells in
MDS
was significantly elevated than controls (P < 0.05). The ratio of CD(34)(+) cells in BMMNC of
MDS
-RA and
MDS
-RAEB patients were 1.2821 +/- 0.4658% and 3.7729 +/- 2.3360%, respectively. Compared with normal controls and
MDS
-RA patients, the ratio of CD(34)(+) cells in
MDS
-RAEB was significantly elevated (P < 0.05). The ratio of CD(34)(+) cells in
MDS
-RA was significantly elevated than AA patients (P < 0.05). The surface expression of G-CSFR on CD(34)(+) cells of AA,
MDS
patients and controls were 34.402 +/- 21.8357%, 26.376 +/- 15.2895% and 21.443 +/- 7.4465%, respectively. The surface expression of G-CSFR on CD(34)(+) cells of
MDS
-RA and
MDS
-RAEB patients were 22.788 +/- 14.7628% and 30.682 +/- 15.5346%. The surface expression of GM-CSFR on CD(34)(+) cells of AA,
MDS
patients and controls were 6.5961 +/- 4.4322%, 18.2737 +/- 10.9841% and 4.2753 +/- 2.6249%, respectively. Compared with AA and controls, the expression of GM-CSFR in
MDS
patients was significantly elevated (P < 0.05). The surface expression of GM-CSFR on CD(34)(+) cells of
MDS
-RA and
MDS
-RAEB patients were 16.1625 +/- 6.9487% and 22.1003 +/- 14.2983%. In AA patients, the ratio of CD(34)(+) cells in BMMNC less than 0.1% accounts for 75% (6/8) SAA patients, compared with 10.55% (2/19) in
CAA
(P < 0.05). The detection of CD(34)(+) cells and their surface expression of granulocyte (macrophage) colony-stimulating factor receptors G (M)-CSFR in AA and
MDS
are helpful in the differential diagnosis or prognosis of these two disorders.
...
PMID:Comparative analysis of G-CSFR and GM-CSFR expressions on CD34+ cells in patients with aplastic anemia and myelodysplastic syndrome. 1863 7
This study was aimed to detect the ratio of CD34+ cells in bone marrow mononuclear cells (BMMNCs) and the expression rate of G(M)-CSFR on CD34+ cells in bone marrow of the patients with aplastic anemia (AA) and
myelodysplastic syndrome
(
MDS
). The ratio of CD34+ cells in BMMNCs and the expression rate of G(M)-CSFR on cells of 27 AA patients, 45
MDS
patients and 20 controls were detected by flow cytometry (FCM). The results showed that the ratio of CD34+ cells in BMMNCs of AA patients reduced and was significantly different from controls (p<0.05), the ratio of CD34+ cells in
MDS
patients elevated and was significantly different from controls (p<0.05). Compared with controls and
MDS
-RA patients, the ratio of CD34+ cells in
MDS
-RAEB patients significantly elevated (p<0.05), but there was no significant difference between
MDS
-RA patients and controls (p>0.05). The ratio of CD34+ cells in
MDS
-RA patients was significantly higher than that in AA patients (p<0.05). There was no significant difference in expression rate of G-CSFR on CD34+ cells between AA patients and controls,
MDS
patients and controls, AA patients and
MDS
patients,
MDS
-RA patients and
MDS
-RAEB patients (p>0.05). The expression rate of GM-CSFR in
MDS
patients was significantly higher than that in AA patients and controls (p<0.05), but there was no significant difference between AA patients and controls,
MDS
-RA patients and
MDS
-RAEB patients (p>0.05). In AA patients, the ratio of CD34+ cells in BMMNCs was less than 0.1% accounts for 6/8 SAA patients, compared with 2/19 in
CAA
(p<0.05). There was no correlation between the expression rate of either G-CSFR or GM-CSFR and neutrophil count at diagnosis (r=0.058 and r=0.044). In
MDS
patients, there was no correlation between bone marrow CD34+ cells ratio and peripheral neutrophil count at diagnosis (r=-0.335). And there was no correlation between the expression of either G-CSFR or GM-CSFR and neutrophil count on diagnosis (r=0.064 and r=0.051). It is concluded the detection of CD34+ cells and their surface expression rate of G(M)-CSFR in AA and
MDS
is useful in diagnosis and differential diagnosis of these two diseases.
...
PMID:[Expression of G-CSF and GM-CSF receptors on CD34 positive cells in aplastic anemia and myelodysplastic syndrome patients and its significance]. 1909 33
