1,721,203 research outputs found
Epigenetic plasticity of chromatin in embryonic and hematopoietic stem/progenitor cells: therapeutic potential of cell reprogramming
No full textDuring embryonic development and adult life, the plasticity and reversibility of modifications that affect the chromatin structure is important in the expression of genes involved in cell fate decisions and the maintenance of cell-differentiated state. Epigenetic changes in DNA and chromatin, which must occur to allow the accessibility of transcriptional factors at specific DNA-binding sites, are regarded as emerging major players for embryonic and hematopoietic stem cell (HSC) development and lineage differentiation. Epigenetic deregulation of gene expression, whether it be in conjunction with chromosomal alterations and gene mutations or not, is a newly recognized mechanism that leads to several diseases, including leukemia. The reversibility of epigenetic modifications makes DNA and chromatin changes attractive targets for therapeutic intervention. Here we review some of the epigenetic mechanisms that regulate gene expression in pluripotent embryonic and multipotent HSCs but may be deregulated in leukemia, and the clinical approaches designed to target the chromatin structure in leukemic cells
ALL1 gene alterations in acute leukemia: Biological and clinical aspects
No full textBACKGROUND AND OBJECTIVE: The ALL1 gene, also referred to as MLL, HRX or Htrx1, is interrupted in the vast majority of translocations involving the chromosome band 11q23. Alterations in this gene are reported in approximately 5-10% of acute leukemias (AL) and characterize different leukemic subtypes such as infant (< 12 months of age) AL, topoisomerase II inhibitors-related (TR) AL and a small subset of de novo AML and ALL. Distinguishing features of ALL1 alterations include the striking heterogeneity of its recombinations, i.e., more than 30 chromosome partners have been described in ALL1 rearrangements, and the lack of association with a definite lineage. The objective of this article is to review the biological and structural properties of ALL1 gene and its various fusion proteins, and to discuss the clinical relevance of these lesions with special emphasis on their role in molecular diagnosis and monitoring of minimal residual disease. EVIDENCE AND INFORMATION SOURCES: The material examined in the present review includes data published by the authors in this field, articles and abstracts published in journals covered by the Science Citation Index and Medline, as well as some more recent personal unpublished observations. STATE OF THE ART: The ALL1 gene spans approximately 90 kb of DNA in length, and consists of 36 exons, ranging in size from 65 bp to 4249 bp. ALL1 codifies for a major transcript of approximately or equal to 15 kb. It encodes a protein of more than 3910 amino acids, containing three regions sharing sequence homology with the Drosophila trithorax gene. These homologies suggest that ALL1 is a transcription factor controlling development and/or differentiation of human cells. To date, twelve ALL1 partner genes have been characterized which are involved in the following translocations: t(4;11), t(9;11), t(6;11), t(11;19), t(1;11) t(10;11), t(11;16), t(11;17) and t(X;11). Since all these genes do not share relevant homologies among each other, their putative role in ALL1 activation still remains to be clarified. The analysis of ALL1 breakpoint cluster region (bcr) shows that several DNA motifs implicated in illegitimate recombination events are located within the bcr. Thus, mapping of breakpoints in the different subtypes of ALL1 +ve leukemia may help in understanding the events leading to translocations in human ALs. In this respect, data on ALL1 breakpoint localization suggest that similar pathogenetic mechanisms may underlie infant and TR AL and that these events might differ from those occurring in de novo AL. The availability of this molecular marker provides a new tool for diagnostic purposes and characterization of ALs and for monitoring of minimal residual disease. To date, the prognostic value of ALL1 rearrangements has been clearly demonstrated for infant ALs only, whereas the clinical relevance of ALL1 rearrangements in the other leukemic subtypes needs further evaluation by future prospective studies on a larger number of patients homogeneously treated. As concerning studies on minimal residual disease, data on PCR monitoring of the ALL1/AF4 fusion transcript, resulting from the t(4;11) translocation, show the clinical relevance of this molecular test in predicting outcome and, as a consequence, in designing individual post-remission therapies. PERSPECTIVES: It is expected that future studies will provide more detailed information regarding either the normal ALL1 function and/or the leukemogenic effect of ALL1 alterations, together with a better definition of the prognostic relevance of the hybrid proteins formed by this gene at diagnosis and during remission of diseas
Subclinical anthracycline cardiotoxicity in patients with acute promyelocytic leukemia in long-term remission after the AIDA protocol
No full textAnthracycline chemotherapy remains a critical component of cancer treatment despite its established risk of cardiotoxicity. To investigate whether the AIDA protocol, which combines idarubicin, mitoxantrone, and all-trans retinoic acid (ATRA) for treatment of acute promyelocytic leukemia (APL) results in late cardiotoxicity, 34 APL patients in long-term remission were evaluated. The cumulative dose of idarubicin and mitoxantrone were 80 mg/m(2) and 50 mg/m(2), respectively. Median follow-up was 7 years. Segmental wall motion abnormalities (SWMAs) were detected in 11 AIDA patients who still presented with an ejection fraction (EF) within normal limits (EF 56% in the AIDA group vs 59% in the control group, P=.01). However, parameters of diastolic dysfunction were significantly impaired in the AIDA group (E/A ratio: 1.04 in the AIDA group vs 1.28 in the control group, P=.001; E/E' lateral ratio: 10.04 in the AIDA group vs 5.79 in the control group, P≤.001) as well as left atrial volume (52 mL in the AIDA group vs 35 mL in the control group, P<.001). Cardiac toxicity due to anthracycline therapy is often frequent. Changes in diastolic function are helpful in the detection of subclinical anthracycline cardiotoxicity in long-term cardiac follow-up despite a preserved systolic ventricular functio
INITIATION AND PROGRESSION OF CHRONIC MYELOGENOUS LEUKEMIA
No full textDifferent aspects related to initiation of chronic myelogenous leukemia by the t(9;22) translocation and progression of the disease were investigated. Computer search indicated that the repeat within BCR exon I has significant sequence homology to the long terminal repeats of three retroviruses, to two transposons and to the Alu family. This raises the possibility that the BCR repeat is involved in the t(9;22) as well as in generation of the BCR-related loci. Possible involvement of the p53 gene in clinical transition to acute phase was studied. In six patients and cell lines where one allele of the gene was deleted, the other allele was inactivated by loss of transcription, point mutation or rearrangement. The majority of patients, however, have both p53 alleles; detailed analysis of the p53 gene in several of them indicated normal transcription and amino acid sequence
Clinical relevance of residual disease monitoring by polymerase chain reaction in patients with ALL-1/AF4 positive acute lymphoblastic leukemia
No full textIn this study we used reverse transcriptase-polymerase chain reaction (RT-PCR) for the longitudinal monitoring of minimal residual disease in 12 patients with All-1/AF-4 positive ALL. Of these, seven also showed at presentation a typical t(4;11) cytogenetic translocation. Seven patients were infants <18 months of age and five were adults. Eleven patients were treated with high-dose intensive induction and consolidation chemotherapy without bone marrow transplantation and one received conservative treatment due to poor performance status. Three had resistant disease, four relapsed within 12 months after achieving complete remission, and five are in continuous complete remission (CCR) at 32, 39, 52, 53 and 61 months from diagnosis, respectively. The sequential analysis of the ALL-1/AF-4 hybrid transcript showed a persistently negative RT-PCR in the five CCR long-term survivors. The PCR analysis resulted persistently positive in the remaining seven cases, including the four cases who relapsed after the achievement of clinical CR. These data emphasize the clinical relevance of PCR monitoring analysis in t(4;11) ALL patients and should be considered in order to better determine variable post-remission treatment according to risk prediction
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