Expression of the cell cycle regulators p14(ARF) and p16(INK4a) in chronic myeloid leukemia.

Expression of p14(ARF) and p16(INK4a) tumor suppressor genes was investigated in 109 patients with chronic myeloid leukemia (CML). The p14(ARF) and p16(INK4a) mRNA levels were significantly low in patients in chronic phase (CP) at presentation and high in patients treated with interferon-alpha (IFN-alpha), especially in non-responders. A moderate overexpression of p14(ARF) with a normal expression of p16(INK4a) was observed in imatinib-resistant patients. Although protein expression did not consistently match mRNA levels, a role for the two cell cycle regulators in the IFN-alpha signaling pathway is suggested as well as a relation with the resistance to IFN-alpha or imatinib therapy.

Resistance in vitro to low-dose aspirin is associated with platelet PlA1 (GP IIIa) polymorphism but not with C807T(GP Ia/IIa) and C-5T Kozak (GP Ibalpha) polymorphisms.

OBJECTIVES: We investigated whether three platelet gene polymorphisms, Pl(A1/A2), C807T, and C-5T Kozak (encoding, respectively, for platelet membrane glycoproteins (GP) IIIa, GP Ia/IIa, GP Ibalpha), could contribute to the resistance to a low dose of aspirin (160 mg/day). BACKGROUND: Aspirin antiplatelet effect is not uniform in all patients, and the mechanism by which some patients are in vitro resistant to aspirin remains to be determined. However, it has been suggested that polymorphisms of platelet membrane glycoproteins might contribute to aspirin resistance. METHODS: Ninety-eight patients on aspirin (160 mg/day) for at least one month were enrolled. Aspirin resistance was measured by the platelet function analyzer (PFA)-100 analyzer; genotyping of the three polymorphisms was performed using a polymerase chain reaction-based restriction fragment-length polymorphism analysis. RESULTS: Using a collagen/epinephrine-coated cartridge on the PFA-100, the prevalence of aspirin resistance was 29.6% (n = 29). Aspirin-resistant patients were significantly more often Pl(A1/A1) (86.2%; n = 25) than sensitive patients (59.4%; n = 41; p = 0.01). Of the 29 patients, 25 were reevaluated after having taken 300 mg/day aspirin for at least one month. Only 11 patients still have nonprolonged collagen epinephrine closure time, and these were all Pl(A1/A1). No relation was found between resistance status and C-5T Kozak or C807T genotypes. CONCLUSIONS: Platelets homozygous for the Pl(A1) allele appear to be less sensitive to inhibitory action of low-dose aspirin. This differential sensitivity to aspirin may have potential clinical implications whereby specific antiplatelet therapy may be best tailored according to the patient's Pl(A) genotype.

Comparison of M-FISH and conventional cytogenetic analysis in accelerated and acute phases of CML.

FISH and multicolor FISH (M-FISH) techniques have greatly enhanced the resolution of conventional cytogenetic analysis, thus enabling the identification of novel regions of rearrangement in hematological malignancies. We report on the analysis of cells from 24 chronic myelogenous leukemia (CML) patients, in either accelerated phase (14 cases) or blast crisis (10 cases) aimed at searching for previously unidentified additional abnormalities related to disease evolution. Indeed, in 6 of 24 cases (25%) M-FISH allowed a more precise description of chromosomal aberrations, the finding of cryptic rearrangements, characterization of markers, identification of additional material and a better interpretation of complex aberrations. However, new recurrent aberration did not emerge from M-FISH analysis.

p190(BCR-ABL) rearrangement as a secondary change in a case of acute myelo-monocytic leukemia with inv(16)(p13q22).

The simultaneous occurrence of two specific primary chromosomal changes in hematological malignancies is rare. We report on a patient with acute myelo-monocytic leukemia and both inv(16)(p13q22) and t(9;22)(q34;q11) with a p190(BCR-ABL) rearrangement. The t(9;22)(q34;q11) translocation appears to be a secondary change. Similar secondary BCR-ABL rearrangements have already been described and, in most cases, the chimeric protein was of the p190(BCR-ABL) type as in our case. A complete remission was obtained by conventional chemotherapy followed with imatinib mesylate maintenance therapy. At relapse, the BCR-ABL transcripts were undetectable, which suggests that imatinib mesylate could be an effective adjuvant treatment in acute leukemia with a secondary t(9;22)(q34;q11).

E2A/HLF fusion gene in an acute lymphoblastic leukemia patient with disseminated intravascular coagulation and a normal karyotype.

INTRODUCTION: Disseminated intravascular coagulation (DIC) is a rare event in acute lymphoblastic leukemia (ALL). However, it has been described in a few cases of pre-B ALL with translocation t(17;19)(q22;p13) which results in the fusion of E2A gene with sequences of HLF gene. Here, we report a case of pre-B ALL with DIC and an apparently normal karyotype by R banding. MATERIALS AND METHODS: Fluorescent in situ hybridization (FISH) studies were performed on bone marrow cells from the patient at presentation and after three months of therapy. RT-PCR was used to detect the E2A-HLF transcript. The type of rearrangement was characterized by sequencing. RESULTS: The t(17;19)(q22;p13) was detected by FISH analysis. The fusion E2A-HLF was amplified by RT-PCR and sequenced, giving a type I rearrangement with a long insertion (146 nucleotides) between E2A exon 13 and HLF exon 4. CONCLUSION: While translocation t(17;19) is undetectable by R-banding technique, it can be detected with FISH and amplified with RT-PCR. Therefore, systematic molecular investigations should be conducted for all patients with pre-B ALL associated with DIC, in order to appreciate the incidence and the prognostic value of this rare abnormality.

Therapy-related acute lymphoblastic leukemia with MLL rearrangement following treatment of Burkitt's leukemia.

The occurrence of therapy-related acute lymphoblastic leukemia (ALL) is rare and, to our knowledge, is not reported in patients treated for Burkitt's leukemia. We report on a child with ALL with translocation t(4;11)(q21;q23) involving the MLL gene, 13 months after chemotherapy for Burkitt's leukemia. This present observation indicates that caution should be exercised in using high cumulative doses of DNA topoisomerase II inhibitors in such patients.

A rapid and specific whole blood HPA-1 phenotyping by flow cytometry using two commercialized monoclonal antibodies directed against GP IIIa and GP IIb-IIIa complexes.

The human platelet antigen 1 (HPA-1) system has been implicated in rare but severe diseases, such as neonatal alloimmune thrombocytopenic purpura, post-transfusion purpura and immune platelet refractoriness. We developed a flow cytometry assay for HPA-1 phenotyping using two commercial monoclonal antibodies, P2 and SZ21, directed against glycoprotein (GP) IIb-IIIa and GP IIIa respectively. One hundred and twenty-seven healthy controls were studied and ratios of mean fluorescence intensity for P2 and SZ21 discriminated between HPA-1a homozygotes and heterozygotes. These two monoclonal antibodies, coupled with flow cytometry represent a rapid and reliable tool for platelet HPA-1 typing to aid diagnosis.

Imatinib improves but may not fully reverse the poor prognosis of patients with CML with derivative chromosome 9 deletions.

Deletions of the derivative chromosome 9 occur in a subset of patients with Philadelphia chromosome-positive chronic myeloid leukemia (CML) and are associated with a poor prognosis on standard drug therapy. However, it is currently unknown if the presence of deletions influences the response to imatinib, an Abl-specific tyrosine kinase inhibitor, that has recently shown excellent hematologic and cytogenetic responses in patients with CML. We, therefore, compared hematologic and cytogenetic responses with imatinib in 397 patients with CML, and survival and progression in 354 of these patients, according to deletion status and disease phase. We found no difference in survival between patients with and without deletions, contrasting with previous reports in cohorts with a lower proportion of patients treated with imatinib. However, the time to disease progression on imatinib treatment was significantly shorter for patients with deletions, both in chronic phase (P =.02) and advanced phases (P =.02). Moreover, both in chronic phase and more advanced phases of CML, hematologic and cytogenetic responses were uniformly lower in patients with deletions, with significant differences seen for hematologic response (P =.04), for major cytogenetic response (P =.008) in chronic phase, and for hematologic response in advanced phases (P =.007) of CML. This finding suggests that differences in survival may become apparent with longer follow-up.

Derivative chromosome 9 deletions in chronic myeloid leukemia: poor prognosis is not associated with loss of ABL-BCR expression, elevated BCR-ABL levels, or karyotypic instability.

Deletions of the derivative chromosome 9 have recently been reported in chronic myeloid leukemia. These deletions are large, occur at the time of the Philadelphia (Ph) translocation, span the translocation breakpoint, and represent a powerful prognostic indicator. However, the molecular mechanisms responsible for the poor prognosis associated with deletions are obscure, and several possible models are investigated here. First, we demonstrate that all derivative chromosome 9 deletions detected by fluorescence in situ hybridization were associated with an absence of ABL-BCR expression. However, loss of ABL-BCR expression also occurred without an overt deletion, suggesting the existence of other mechanisms by which ABL-BCR transcription can be abolished. Furthermore, analysis of survival in 160 patients demonstrated that loss of ABL-BCR expression, in contrast to deletion status, was not an indicator of poor prognosis. Second, we addressed the possibility that concomitant small deletions of the Ph chromosome modulate BCR-ABL transcription. Real-time reverse-transcription polymerase chain reaction was used to demonstrate that derivative chromosome 9 deletions were not accompanied by altered levels of BCR-ABL transcripts. Third, deletions may represent a consequence of genetic instability within the target cell at the time of the Ph translocation, with the poor prognosis reflecting a predisposition to subsequent additional genetic alterations. However, patients with deletions do not exhibit an increased frequency of secondary cytogenetic changes following disease progression. Taken together, these data support a model in which deletions of the derivative chromosome 9 result in rapid disease progression as a result of the loss of one or more genes within the deleted region.