Variant MYST4-CBP gene fusion in a t(10;16) acute myeloid leukaemia

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Gene expression profiling defines molecular subtypes of classical Hodgkin's disease

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Combined translocation with ZNF198-FGFR1 gene fusion and deletion of potential tumor suppressors in a myeloproliferative disorder

International audienceTyrosine kinases activated by mutation or translocation are involved in the chronic phase of myeloproliferative disorders. Complementary or alternative events are not so well characterized. We report here a case of t(8;13) generating a ZNF198-FGFR1 fusion kinase gene on the derivative chromosome 13. ZNF198-FGFR1 mRNA, but not FGFR1-ZNF198, was detected by polymerase chain reaction amplification. By using fluorescence in situ hybridization with BAC clones, we mapped a deletion of about 2 megabases on the derivative chromosome 8, including the reciprocal FGFR1-ZNF198 fusion gene and the surrounding genes from 8p11 and 13q12. Potential tumor suppressor genes affected by the deletion by loss (IFT88, CRYL1, TACC1) or break (LATS2) may participate in the malignant process

Constitutive nuclear localization and initial cytoplasmic apoptotic activation of endogenous caspase-3 evidenced by confocal microscopy

The localization of caspases and their substrates in different cellular compartments may be one way to regulate apoptosis. Caspase-3-dependent proteolysis of inhibitor caspase-activated deoxyribonuclease (ICAD) activates caspase-activated deoxyribonuclease (CAD), which induces apoptotic internucleosomal DNA degradation. The nuclear localization of ICAD, pro- and active-caspase-3 molecules remains a controversial issue. Using a combination of immunodetection of endogenous molecules and confocal microscopy, we analysed the kinetics of the procaspase-3 and CAD activation induced by FAS triggering in Jurkat cells. Through a semi-quantitative image analysis, we showed a constitutive nuclear localization of pro-caspase 3 and ICAD in non-apoptotic cells. FAS stimulation induced 7A6 apoptotic antigen expression, which could be related to three different sequential patterns of nuclear chromatin organization. Active-caspase-3 first appeared in the cytoplasm and was next observed in the nucleus. Simultaneously, the amount of ICAD located in the nucleus decreased, whereas the amount of ICAD located in the cytoplasm remained unchanged. Thus, our experiments using in situ immunodetection of endogenous molecules show that the ICAD cleavage by the active-caspase-3 probably takes place in the nucleus. These results provide new perspectives about the subcellular compartmentation and traffic of caspases during the apoptotic process

Identification of new classes among acute myelogenous leukaemias with normal karyotype using gene expression profiling

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