The Philadelphia chromosome (Ph) derives from the balanced translocation between chromosomes 9 and 22. This chromosomal translocation results in the fusion between the 5' part of the BCR gene, normally located on chromosome 22, and the 3' part of the ABL gene on chromosome 9 giving origin to a BCR-ABL fusion gene which is transcribed and then translated into a hybrid protein. In general, three breakpoint cluster regions in the BCR gene have been described: major (M-BCR), minor (m-BCR) and micro (μ-BCR). Three main variants of the BCR-ABL gene have been described depending on the length of the sequence of the BCR gene included that encode for the P190, P210, P230 proteins. Most patients (95 %) were found to have P210 protein that resulted from rearrangement in the M-BCR region in the BCR gene and thus gives rise to b2a2 or b3a2 variants. The incidence of one or other rearrangement in chronic myeloid leukemia (CML) patients varies in different reported series. These two variants are associated with distinct clinical types of human leukemias. In this study, we report the frequencies of M-BCR-ABL fusion transcripts in 44 CML patients and we review the data on the correlations between the type of M-BCR/ABL variant and the corresponding sex, age and biological features. Forty-four untreated chronic phase CML patients were studied. The type of BCR-ABL fusion transcripts was determined by reverse transcriptase polymerase chain reaction (RT-PCR). More than half of them showed b3a2 fusion transcript (64 %), while (36 %) showed b2a2 transcript. No patients coexpressed b3a2/b2a2. Correlation between biological data demonstrated that: (a) M-BCR rearrangements were not associated with the sex of the patients. (b) Patients with b3a2 rearrangements were older than patients with b2a2 transcripts. (c) M-BCR rearrangements were influenced neither by the white blood count (WBC) nor with hemoglobin levels. However, platelet level is more elevated in patients with b3a2 transcript (681.2/L vs. 207/L; P = 0.001). In conclusion, we observed significant correlations between age, platelet level and M-BCR-ABL transcript, these observations deserve further investigations.
The aims of this study are to investigate the frequency of derivative chromosome 9 (der (9)) deletion in Tunisian patients with chronic myeloid leukemia (CML) and to assess the correlation between this deletion and the cytogenetic response for patients treated with hydroxyurea (HU) or imatinib (IM). Karyotype analysis of 336 patients with CML was performed with R-banding technique. Fluorescence in situ hybridization (FISH) was carried using home-brew probes 17L7 and 248J22 for detecting, respectively, adjacent 5'ABL and 3'BCR deletions on der(9). Cytogenetic study demonstrated typical t(9;22)(q34;q11) translocation in 89.6% and variant translocation in 10.4% of patients. Interphase FISH studies showed deletion of der(9) in 59 (17.6%) of the 336 patients, 23 (39%) of them had variant rearrangements. There are 19 patients with solely 5'ABL deletion and 40 with concomitant 5'ABL and 3'BCR deletions. Cytogenetic response was evaluated during 18 months with HU or IM therapy. Our results demonstrate that (a) 3'BCR deletion is associated with 5'ABL deletion in all patients with der(9) deletions, (b) the 5'ABL and 3'BCR deletions arise simultaneously with t(9;22), (c) deletions on der(9) chromosome were frequently encountered in older patients and in patients presenting variant rearrangements, (d) both 5'ABL and 3'BCR deletions were associated with cytogenetic response failure in patients treated with HU, however, patients treated with IM and carrying der(9) deletions presented better cytogenetic response.
Sex chromosomes are infrequently involved in patients with hematologic malignancies. In most instances, the abnormality is either duplication in the q arm or deletion and translocation involving the q13 and q24 regions. We report herein a rare translocation t(X;10)(p10;p10) in a newborn with 2 months and 20 days with acute myeloid leukemia (AML) (FAB, M4). Cytogenetic analysis detected a cell clone with t(X;10)(p10;p10). Thus was confirmed by FISH analysis with whole chromosome painting (WCP) specific for chromosomes X and 10. The patient was treated with chemotherapy, and a complete morphologic and cytogenetic remission was achieved. To our knowledge, our case is the first report of a neonatal AML4 with t(X; 10). The patient had an excellent early response to a salvage AML-type therapy. The prognostic significance of the t(X; 10) in this setting remains unclear. Due to the rarity of this translocation, further cytogenetic and molecular biologic studies are required to elucidate the clinical and molecular significance of this unusual karyotypic finding.
Introduction and importance: The extragastrointestinal stromal tumor (EGIST) is defined as a mesenchymal neoplasm arising from soft tissues outside the gastrointestinal tract, and the prostate is a rare presentation site. Case presentation: A 58-year-old man was presented with lower urinary tract symptoms for 6 months. A digital rectal examination revealed a markedly enlarged prostate with a smooth, bulging surface. Prostate-specific antigen density was 0.5 ng/ml. MRI of the prostate showed an enlarged prostatic mass with hemorrhagic necrosis. Transrectal ultrasound-guided prostate biopsy was performed and pathological reports suggested a gastrointestinal stromal tumor. The patient refused radical prostatectomy and received only imatinib treatment. Clinical discussion: The diagnosis of EGIST of the prostate is extremely rare and depends on the histopathologic features with immunohistochemical results. The treatment is essentially based on radical prostatectomy, but there are other therapeutic modalities associating surgery with adjuvant or neoadjuvant chemotherapy. For patients refusing surgery, treatment with imatinib alone appears to be a therapeutic solution. Conclusion: Despite the rarity, EGIST of the prostate should be included in the differential diagnosis of patients presenting with lower urinary tract symptoms. There is no consensus regarding the treatment of EGIST, and the patients are treated as per the risk stratification.
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