Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0598766 (leukemogenesis)
4,065 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Acute promyelocytic leukemia is a clonal expansion of malignant cells blocked at a specific stage of myeloid differentiation. The disease is associated with a specific translocation between chromosome 17 and chromosome 15 [t(15;17)] and with a bleeding diathesis previously attributed to disseminated intravascular coagulation, which has recently also been related to primary fibrinolysis. The high percentage of early deaths, about 20%, experienced by acute promyelocytic leukemia patients, is generally due to the hemorrhagic syndrome. A new finding is the high effectiveness of treatment with all-trans retinoic acid, a vitamin A derivative, for inducing complete remission. The induction of cellular maturation by this agent represents the first model of differentiation therapy. Furthermore, recent molecular studies revealed that the breakpoints of the t(15;17) translocation are clustered in the gene of retinoic acid receptor-alpha, generating a hybrid gene product. Gene transfection experiments disclosed the impairment of gene transactivation due to the hybrid gene products, opening new concepts for understanding leukemogenesis. Understanding the mechanisms of action of retinoic acid could extend differentiation therapy to other malignancies with aberrant gene transcription.
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PMID:Retinoic acid in acute promyelocytic leukemia: a model for differentiation therapy. 131 15

Human myeloid leukemia cells do not differentiate into functional end-cells but remain in the proliferation pool. Human cell lines can serve as model for hematopoietic cells arrested at different stages of myeloid differentiation and helps to dissect the cellular and molecular events involved in leukemogenesis. Furthermore, several agents have been identified as inducers of differentiation of leukemia cells. Exciting new clinical observation have shown that patients with APL respond well to the treatment with all-trans retinoic acid. RAR-alpha gene was proved to translocated from chromosome 17 to a locus PML on chromosome 15. This new chimeric gene, PML-RAR alpha is extremely important to understand the leukemogenesis of APL.
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PMID:[Induction of differentiation of human leukemia cells]. 138 72

This is the first report in Israel of the successful treatment of acute promyelocytic leukemia (APL; M3) with an active metabolite of vitamin A. In a 42-year-old woman with APL all-trans-retinoic acid (ATRA; tretinoin), 45 mg/m2/day was given per os for 90 days. APL is associated with a distinct cytogenetic abnormality: translocation of a portion of the long arm chromosome 17 onto the long arm chromosome 15t (15; 17) with a breakpoint on chromosome 17 in the region of the retinoic acid receptor-alpha (RAR-alpha), playing a crucial role in the leukemogenesis of APL. In man, the drug induces myeloid and mainly promyelocytic leukemic cells to differentiate, without the development of bone marrow hypoplasia. In our patient it caused complete remission and the disappearance of intravascular disseminated coagulation. The only side-effects were a transient macular rash, gastrointestinal symptoms and mild hypertriglyceridemia. Other principal adverse effects reported in the literature are relatively not very serious and consist of dryness of the skin, occasional headaches and intracranial hypertension, nasal congestion, lymphadenopathy, respiratory distress with infiltrates in the lung, bone pain and increased hepatic aminotransferase. A hyperleukocytosis syndrome seems to be more problematic. ATRA appears to be superior to conventional chemotherapeutic regimens. It is safe and highly effective in inducing clinical, morphologic and karyotypic remission with a marked decrease in the expression of the abnormal RAR-message in APL. There is a possible molecular link between the pathogenesis and treatment of this severe and often fatal coagulopathic disease. This therapy of course does not eradicate the leukemic clone, and consolidation chemotherapy or bone marrow transplantation is necessary.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Remission of acute promyelocytic leukemia after all-trans-retinoic acid]. 148 98

We have recently demonstrated that all-trans retinoic acid (RA), the active metabolite of vitamin A, is an efficient alternative to chemotherapy in the treatment of acute promyelocytic leukemia (AML3). We have further shown that, in these AML3 cells, the gene of the retinoic acid receptor-alpha (RAR alpha) is translocated from chromosome 17 to chromosome 15, and fused to a new gene, PLM. This results in the expression of both normal and chimeric RAR alpha transcripts in AML3 cells. The PLM-RAR alpha protein may account for the impairment of differentiation and thus leukemogenesis, but not for the paradoxical efficacy of RA in these cells. In an attempt to elucidate RA's differentiative effect in AML3 patients, the present work examined the in vitro and in vivo modulation of the normal RAR alpha transcripts by all-trans RA in seven cases of AML3. In all samples, Northern blot analysis revealed a low expression of the two normal RAR alpha transcripts compared with other human myeloid leukemic cells. No modulation was observed after 4-8 d of in vivo therapy with all-trans RA 45 mg/m2 per d. In vitro incubation with all-trans RA, however, increased the level of expression of the normal RAR alpha transcripts in AML3 cells but not in other AML leukemic subtypes. This modulation of the two normal RAR alpha transcripts appeared to be an early and primary event of RA's differentiating effect. We therefore suggest that up-regulation of the normal RAR alpha gene expression by pharmacological concentrations of all-trans RA may restore the normal differentiation pathway in these cells.
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PMID:All-trans retinoic acid modulates the retinoic acid receptor-alpha in promyelocytic cells. 166 1

Acute promyelocytic leukemia (APL) is a clonal expansion of malignant cells blocked at a specific stage of myeloid differentiation. The disease is associated with a specific translocation between chromosome 17 and chromosome 15 t (15; 17) and with a bleeding diathesis previously attributed to a disseminated intravascular coagulation which is recently also related to a primary fibrinolysis. The high percentage of early deaths, around 20% experienced by APL patients, is generally due to the haemorrhagic syndrome. A new feature is the highly effectiveness of all-trans retinoic acid treatment, a vitamin A derivative, for inducing complete remission in patients. The induction of cellular maturation by this agent represents the first model of differentiation therapy. Furthermore recent molecular studies revealed that the breakpoints of the t(15; 17) translocation are clustered in the gene of retinoic acid receptor a, generating a hybrid gene product. Gene transfection experiments disclosed the impairment of gene transactivation due to the hybrid gene products, opening new concepts for the leukemogenesis. The abnormal program made by the aberrant transcript might be overcome by pharmacological concentration of RA which induces an over expression of the normal allele and a normal activity of the aberrant product.
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PMID:Phenotypic reversion in acute promyelocytic leukemia. 166 50

We have previously shown that all-trans retinoic acid therapy is an alternative therapy for acute promyelocytic leukemia (AML3) via differentiation of the leukemic cells. The t(15;17) translocation is specifically found in this leukemia. We and others have shown that through this translocation the RAR alpha gene is rearranged and its expression altered in AML3 cells. The gene is truncated and fused to a novel gene (PLM). This results in a fusion protein whose transactivating properties may be implicated in the leukemogenesis of this disease. Retinoic acid cytoplasmic binding proteins (CRABP and CRBP) are not detected by PAGE chromatography in normal or malignant hematopoietic cells. During all-trans RA therapy, a) all-trans RA plasma concentrations are within in vitro differentiating concentration (med. 0.4 microgram/ml); b) increased expression of the normal remaining RAR alpha allele is rapidly observed and may explain the paradoxical induction of RA differentiation in these cells; c) CRABPII is induced in the bone marrow cells of AML3 patients and remains detectable 1 month after withdrawal of RA. AML3 in relapse after RA therapy is always less sensitive to RA in vitro and in vivo. Our data suggest that modification of the metabolisation pathways of RA may be one of parameters linked to this resistance. It appears that the efficacy of all-trans RA is the resultant of multiple parameters (RA concentration, ratio of PML/RAR alpha transcripts to normal RAR alpha, CRABP) which need to be defined to efficiently monitor all-trans RA therapy in APL.
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PMID:[Biological parameters of the efficiency of retinoic acid in acute leukemia]. 182 94

A panel of 164 continuous human leukemia-lymphoma cell lines was analyzed for expression of c-kit using Northern blotting and reverse transcriptase-polymerase chain reaction (RT-PCR). The c-kit transcripts were detectable in cell lines assigned to the myeloid (in 7 of 29 by Northern blotting and in 4 of 8 by RT-PCR), monocytic (in 1 of 24 by Northern blotting and in 3 of 6 by RT-PCR), erythroid (in 6 of 8 by Northern blotting and in 5 of 5 by RT-PCR), and megakaryoblastic (in 10 of 10 by Northern blotting) lineages, c-kit expression was not seen by Northern blotting or RT-PCR analysis in any of the 93 lymphoid leukemia, myeloma, or lymphoma cell lines. Treatment of four megakaryoblastic cell lines with protein kinase C activators (phorbol ester 12-O-tetradecanoylphorbol 13-acetate and Bryostatin 1) led to terminal differentiation as assessed by morphologic alterations, changes in the surface marker profile, and growth arrest. These effects were associated with enhanced c-kit mRNA expression. Exposure to all-trans retinoic acid down-regulated c-kit mRNA levels, while simultaneously causing morphologic alterations in all four cell lines. Stimulation with growth factors (interleukin-3, granulocyte macrophage-colony stimulating factor, and insulin-like growth factors I and II), used to assess any role of c-kit in proliferative processes, did not lead to significant upregulation or downregulation of c-kit expression. The finding of constitutive and high expression of c-kit mRNA in all megakaryoblastic leukemia cell lines and its modulation by various reagents might further contribute to the understanding of megakaryopoietic proliferation, differentiation, and leukemogenesis.
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PMID:c-kit expression in human megakaryoblastic leukemia cell lines. 751 41

Acute promyelocytic leukemia (APL), is a homogeneous subgroup of acute myelogenous leukemias characterized by phenotypic and genetic markers. APL is associated with a reciprocal chromosomal translocation t(15,17) which has been shown to disrupt the retinoic acid receptor alpha (RAR alpha) gene. As a result, a portion of the RAR alpha gene becomes fused with a chromosome 15 locus termed PML (promyelocytic myeloid leukemia) from which chimeric PML/RAR alpha fusion mRNAs are expressed. The presence of these fusion transcripts in APL patients strongly support the hypothesis that both the t(15;17), and thus PML/RAR alpha, play a crucial role in the leukemogenesis of this disease. APL cells are specifically responsive to all-trans retinoic acid (ATRA) and this characteristic has allowed the first differentiation therapy with retinoic acid. However, failure or partial responses are observed and, though this has most frequently been reported in patients at second or third relapse. The molecular basis of the absence of ATRA response in these patients has not been determined.
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PMID:Retinoic acid receptors: involvement in acute promyelocytic leukemia. 792 Jan 73

A large number of acute promyelocytic leukemia (APL) patients, treated with all-trans retinoic acid (ATRA) and chemotherapy, were studied. The results of the studies are as follows: (1) Among 65 patients investigated for the postremissional therapy, the 5-year survival probabilities were 0.20 +/- 0.13 (mean +/- SE) in the group treated with ATRA alone, 0.47 + 0.10 (mean +/- SE) in the group using chemotherapy alone and 0.42 +/- 0.09 (mean +/- SE) in the group treated with chemotherapy and ATRA. (2) The main severe adverse effects in the ATRA treatment include retinoic acid syndrome, renal failure, and thrombosis. These sequelae were observed more frequently in cases with persistent, marked elevation of white blood cell count without significant maturation of leukemic promyelocytes. (3) APL is not a homogeneous disease in that among 50 patients studied at the molecular level, although a PML-RARA fusion gene was detected in 45 cases, one had a variant translocation t(11;17) bearing fusion gene PLZF-RARA, one presented no obvious structural alteration of the PML gene while the RARA gene was rearranged, and three patients had no rearrangement of either PML or RARA genes. (4) Using RT/PCR to detect minimal residual disease, we found positive rates of 22%, 18.4%, and 11.5%, respectively, 12, 24, and 36 months after CR. This observation justifies the use of chemotherapy for at least 3 years after CR induced by ATRA. (5) It seems likely that the fusion gene PML-RARA plays an important role in APL leukemogenesis and in its response to the ATRA treatment.
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PMID:Problems existing in differentiation therapy of acute promyelocytic leukemia (APL) with all-trans retinoic acid (ATRA). 801 44

Acute promyelocytic leukemia (APL) is characterized by an arrest of granulocytic differentiation and a reciprocal t(15;17) translocation fusing the PML gene to the retinoic acid receptor alpha (RAR alpha) gene. PML was recently identified as a potential transcription factor. In non hematopoietic cells, the transfected PML-RAR alpha product binds all trans retinoic acid and exhibits altered transactivating properties when compared with RAR alpha. A major question raised by these observations is whether PML-RAR alpha contributes to the inhibition of myeloid differentiation. We find that in myeloid cell lines responsive to retinoic acid, PML-RAR alpha blocks retinoic acid mediated transactivation and totally abrogates the retinoic acid mediated granulocytic differentiation. These findings strongly suggest that PML-RAR alpha may, by blocking normal retinoic acid dependent myeloid differentiation, participate in the leukemogenesis of APL. The fact that high doses of all-trans retinoic acid relieve the inhibitory effect of PML-RAR alpha corroborates the therapeutic effect of all-trans retinoic acid in APL patients.
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PMID:The PML-RAR alpha gene product of the t(15;17) translocation inhibits retinoic acid-induced granulocytic differentiation and mediated transactivation in human myeloid cells. 829 Feb 65


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