Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023473 (chronic myeloid leukemia)
 18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Conventional antileukemic chemotherapy in relapsed or refractory acute leukemia or myeloid blast crisis of chronic granulocytic leukemia (CGL) is not curative and remissions, if attained, are usually of short duration. The primary goal of antileukemic therapy in these patients should be the identification of agents that are more selective and better targeted in their action. Tiazofurin is known to inhibit inosine 5'-phosphate dehydrogenase (IMPDH), the rate limiting enzyme of de novo guanine ribonucleotide synthesis. The activity of this enzyme is markedly increased in leukemic cells. To prevent de novo GTP synthesis, it is also necessary to block the guanine-salvaging activity of hypoxanthine-guanine phosphoribosyltransferase (HGPRT). This was achieved by increasing the plasma levels of hypoxanthine through the administration of allopurinol. Twenty-seven patients with end stage leukemia or myeloid blast crisis of CGL were treated with tiazofurin. Assays of IMPDH activity and GTP concentrations in leukemic cells, as well as hypoxanthine levels in the serum, provided a method to monitor the impact of tiazofurin/allopurinol therapy and to adjust drug doses. In these poor prognosis patients seven attained a complete response (CR), 3 had a hematologic improvement and an antileukemic effect was seen in 4. An excellent correlation was observed between biochemical and clinical activity of tiazofurin/allopurinol, with biochemical responses preceding clinical results. However, clinical responses were usually short-lived with IMPDH activity starting to increase soon after discontinuation of therapy, but patients responding again after reinstitution. Tiazofurin therapy was generally well tolerated in patients with less than 15 days of treatment and no other major medical complications. Although an antiproliferative effect was observed in some patients, bone marrows remained cellular in most cases with a marked shift from blasts to granulocytes. Severe neutropenia was absent in the majority of cases and patients could be discharged in good clinical condition immediately after completion of therapy. Tiazofurin/allopurinol therapy provided a rational, biochemically targeted and biochemically monitored approach to the treatment of poor prognosis leukemia and should serve as a paradigm in enzyme pattern-targeted chemotherapy.
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PMID:Biochemically targeted therapy of refractory leukemia and myeloid blast crisis of chronic granulocytic leukemia with Tiazofurin, a selective blocker of inosine 5'-phosphate dehydrogenase activity. 904 9

The focal adhesion is a structure that is formed when a cell comes into contact with the extracellular matrix. Originally, the focal adhesion was thought to only provide structural support for the actin-based cytoskeleton of the cell. However, the last decade has yielded considerable information linking various protein components of the focal adhesion to signal transduction pathways. Examples of focal adhesion proteins include the catalytically active p125FAK, SH2-containing tensin, and the multifunctional LIM domain-containing paxillin. The interactions of focal adhesion proteins may be altered after cellular transformation. This review details how certain focal adhesion proteins are associated in cellular signaling as well as transformation. The importance of various GTP-binding proteins in interacting with and forming the focal adhesion, and the influence they have on neoplastic transformation, are discussed. A key feature of this review is how oncogenes and their respective oncoproteins affect the focal adhesion. Classically, v-src transformation of adherent cells has been studied to characterize focal adhesions, namely, because of the distinct morphological changes that occur in the focal adhesion concomitantly with src transformation. Similarly, the BCR/ABL oncogene, which causes chronic myelogenous leukemia, leads to adhesion defects and can alter the properties of focal adhesion proteins. Thus, we describe some of the relevant interactions between the focal adhesion and the Src and BCR/ABL oncoproteins, respectively.
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PMID:Role of focal adhesion proteins in signal transduction and oncogenesis. 962 54

CrkL is a member of the Crk family of adapter proteins consisting mostly of SH2 and SH3 domains. CrkL is most abundantly expressed in hematopoietic cells and has been implicated in pathogenesis of chronic myelogenous leukemia. However, its function has not been precisely defined. Here, we show that overexpression of CrkL enhances the adhesion of hematopoietic 32D cells to fibronectin. The CrkL-induced increase in cell adhesion was blocked by antibodies against VLA-4 (alpha4beta1) and VLA-5 (alpha5beta1) but was observed without changes in surface expression levels of these integrins. Studies using CrkL mutants demonstrated that the SH2 domain is partially required for enhancing cell adhesion, whereas the C-terminal SH3 domain as well as the tyrosine phosphorylation site (Y207) is dispensable. In contrast, the N-terminal SH3 domain, involved in binding C3G and other signaling molecules, was showed to play a crucial role, because a mutant defective of this domain showed an inhibitory effect on the cell adhesion to fibronectin. Furthermore, overexpression of C3G also increased the adhesion of hematopoietic cells to fibronectin, whereas a C3G mutant lacking the guanine nucleotide exchange domain abrogated the CrkL-induced increase in cell adhesion. On the other hand, a dominant negative mutant of H-Ras or that of Raf-1 enhanced the basal and CrkL-induced cell adhesion and that of R-Ras modestly decreased the adhesion. Taken together, these results indicate that the CrkL-C3G complex activates VLA-4 and VLA-5 in hematopoietic cells, possibly by activating the small GTP binding proteins, including R-Ras, through the guanine nucleotide exchange activity of C3G.
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PMID:CrkL activates integrin-mediated hematopoietic cell adhesion through the guanine nucleotide exchange factor C3G. 1033 78

Inosine 5 -monophosphate dehydrogenase (IMPDH) is a rate-limiting enzyme for the synthesis of GTP and dGTP. Two isoforms of IMPDH have been identified. IMPDH Type I is ubiquitous and predominantly present in normal cells, whereas IMPDH Type II is predominant in malignant cells. IMPDH plays an important role in the expression of cellular genes, such as p53, c-myc and Ki-ras. IMPDH activity is transformation and progression linked in cancer cells. IMPDH inhibitors, tiazofurin, selenazofurin, and benzamide riboside share similar mechanism of action and are metabolized to their respective NAD analogues to exert antitumor activity. Tiazofurin exhibits clinical responses in patients with acute myeloid leukemia and chronic myeloid leukemia in blast crisis. These responses relate to the level of the NAD analogue formed in the leukemic cells. Resistance to tiazofurin and related IMPDH inhibitors relate mainly to a decrease in NMN adenylyltransferase activity. IMPDH inhbitors induce apoptosis. IMPDH inhitors are valuable probes for examining biochemical functions of GTP as they selectively reduce guanylate concentration. Incomplete depletion of cellular GTP level seems to down-regulate G-protein function, thereby inhibit cell growth or induce apoptosis. Inosine 5'-monophosphate dehydrogenase (IMPDH, EC 1.1.1.205) catalyzes the dehydrogenation of IMP to XMP utilizing NAD as the proton acceptor. Studies have demonstrated that IMPDH is a rate-limiting step in the de novo synthesis of guanylates, including GTP and dGTP. The importance of IMPDH is central because dGTP is required for the DNA synthesis and GTP plays a major role not only for the cellular activity but also for cellular regulation. Two isoforms of IMPDH have been demonstrated. IMPDH Type I is ubiquitous and predominately present in normal cells, whereas the IMPDH Type II enzyme is predominant in malignant cells. Although guanylates could be salvaged from guanine by the enzyme hypoxanthine-guanine phosphoribosyltransferase (EC 2.4.2.8), the level of circulating guanine is low in dividing cells and this route is probably insufficient to satisfy the needs of guanylates in the cells.
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PMID:Consequences of IMP dehydrogenase inhibition, and its relationship to cancer and apoptosis. 1039 Jun 1

The objective of this study was to characterize the ABL1-BCR fusion gene in 76 BCR-ABL1-positive chronic myeloid leukemia (CML) patients regarding expression as well as genomic status, to assess the frequency of ABL1-BCR gene deletion in these patients, which has been reported to be an adverse prognostic factor in Philadelphia chromosome-positive CML. Patients were analyzed for ABL1-BCR 1b-b3 and/or 1b-b4 transcription by RT-PCR analysis. ABL1-BCR gene status was analyzed by FISH in 16 CML patients with no ABL1-BCR transcript. FISH revealed a partial or total deletion of the ABL1-BCR gene in 9/16 and localized the 5' portion of ABL1 and the 3' portion of BCR at separated loci in 5/16 patients. The latter FISH pattern resulted from a nonreciprocal translocation in two and a complex translocation in three individuals. In 2/16 patients, FISH could not exclude an intact ABL1-BCR fusion gene. Thus, most CML patients without ABL1-BCR transcript could be characterized cytogenetically to belong to two major subgroups: a silent ABL1-BCR gene was attributed to a deletion in der(9)t(9;22) in 56% of the investigated patients or to variants of a standard t(9;22) (approximately 31%). Conversely, none of the 50 patients with an ABL1-BCR transcript exhibited a variant t(9;22) in GTG-banding analysis. Thus, genomic aberrations such as deletions or complex genomic rearrangements are the basic and most frequent cause for ABL1-BCR RNA negativity in CML. The heterogeneity of the underlying molecular mechanisms may explain divergent clinical implications described for patients with an ABL1-BCR deletion and those with no ABL1-BCR transcript.
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PMID:Heterogenic molecular basis for loss of ABL1-BCR transcription: deletions in der(9)t(9;22) and variants of standard t(9;22) in BCR-ABL1-positive chronic myeloid leukemia. 1197 53

We report on a patient with a clinically diagnosed Philadelphia negative chronic myelogenous leukemia (CML) with a so far unrecorded complex translocation event between the two homologue chromosomes 5. At the GTG-band level the karyotype was normal, apart from an enlarged chromosome 5 and an extremely shortened second chromosome 5. Both derivative chromosomes 5 consisted exclusively of #5 derived material as proven by 24-color FISH. To characterize the complex aberration in more detail the multicolor banding (MCB) technique using a chromosome 5 specific probe set was applied. Using this DNA-based high resolution banding procedure, the karyotype could be described as 46,XX,del(5)(pterright curved arrow q12::q33right curved arrow qter),ins(5)(pterright curved arrow q15::q12right curved arrow q21::q21right curved arrow qter). In consequence, the aberration leads to a partial deletion of the long arm of chromosome 5: del(5)(q21q33), which would not have been identified using conventional banding techniques or 24-color FISH.
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PMID:A complex translocation event between the two homologues of chromosomes 5 leading to a del(5)(q21q33) as a sole aberration in a case clinically diagnosed as CML: characterization of the aberration by multicolor banding. 1201 96

Routine cytogenetic analysis provides important information of diagnostic and prognostic relevance for hematological malignancies. In spite of this, poorly spread metaphase chromosomes and highly rearranged karyotypes with numerous marker chromosomes, are often difficult to interpret. In order to improve the definition of chromosomal breakpoints multicolor banding (MCB) was applied on 45 bone marrow samples from patients suffering from hematological malignancies like myelodysplastic syndrome (MDS), acute myelocytic leukemia (AML), chronic myelocytic leukemia (CML) or acute lymphoblastic leukemia (ALL). The breakpoints defined by GTG banding were confirmed by MCB in 8 cases, while in the remaining 37 cases the breakpoints had to be redefined. In 20/45 cases the breakpoints could only be characterized after application of MCB. In summary, 73 different breakpoints were characterized, thereof 33 were previously undescribed. Eleven cases showed known acquired aberrations and 21 cases had previously described aberration types such as del(5q-), del(7q-), del(13q-) or t(1;5) as sole rearrangement or in connection with other complex ones. In a total of 11 cases 19 breakpoints as described before were involved in hematological malignancies, while in 14 cases 33 breakpoints were identified which have not been described previously. Thus, MCB has proven to be a powerful and reliable method for screening of chromosomal aberrations, which considerably increased the accuracy of cytogenetic diagnosis.
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PMID:Breakpoint differentiation in chromosomal aberrations of hematological malignancies: Identification of 33 previously unrecorded breakpoints. 1465 49

Here we describe how we detected the BCR/ABL fusion gene on the short arm of der(9) combining classical GTG banding and Fluorescence In Situ Hybridization (FISH) in a case of chronic myeloid leukemia (CML). To our knowledge, variant translocations involving the short arm of chromosome 9, in literature, are almost rare in chronic myeloid leukemia. It is not clear if this complex genetic translocation represents clonal evolution or a unique, initial presentation variant of the Philadelphia chromosome (Ph).
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PMID:Complex variant Philadelphia translocation involving the short arm of chromosome 9 in a case of chronic myeloid leukemia. 1537 89

Transglutaminase 2 (TG2) is a GTP-binding protein with transglutaminase activity. Despite advances in the characterization of TG2 functions and their impact on cellular processes, the role of TG2 in Human chronic myelogenous leukemia K562 cell line is still poorly understood. To understand the biological significance of TG2 during the differentiation of K562 cells, we established and characterized K562 cells that specifically express TG2. Non-transfected K562 cells showed the increase of membrane-bound-TG2 level after 3 days in the response to Hemin and all trans-retinoic acid (tRA), indicating that membrane recruitment of TG2 is occurred during the erythroid differentiation. However, membrane recruitment of TG2 in TG2-transfected cells revealed within earlier time period, compared with that in vector-transfected cells. The ability of membrane-bound-TG2 to be photoaffinity-labeled with [alpha-32P]GTP was also increased in TG2-transfected cells. TG2-transfected cells activated Akt phosphorylation and inactivated ERK1/2 phosphorylation, compared with vector-transfected cells. Furthermore, phosphorylation of CREB, one of the Akt substrates, was increased in TG2-transfected cells and this phenomenon was confirmed by RT-PCR analysis of several marker genes related with erythroid lineage in the absence of PI3K specific inhibitor, Wortmannin, indicating that PI3K/Akt signaling pathway also involved in the differentiation of the cell. Finally, as results of benzidine positive staining as well as hemoglobinization analysis, overexpression of TG2 revealed acceleration of the erythroid differentiation of K562 cells. Taken together, there was no increased TG2 expression level in the response of Hemin/tRA and delayed differentiation in vector transfected cells than in TG2-transfected cells, suggesting that suppression of TG2 expression may retard the erythroid differentiation of K562 cells. Therefore, our study may give a new insight for another aspect of the development of this disease.
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PMID:Overexpression of transglutaminase 2 accelerates the erythroid differentiation of human chronic myelogenous leukemia K562 cell line through PI3K/Akt signaling pathway. 1555 10

Chronic myelogenous leukemia (CML) is a clonal bone marrow disease with progression from a chronic phase to an aggressive blast crisis. The cell line NALM-1 was originally established by Minowada and coworkers from the peripheral blood of a patient in CML blastic crisis. A karyotype analysis of the NALM-1 cell line was performed in the 1970s. To the best of our knowledge, this karyotype was not re-analyzed by molecular cytogenetic techniques, although this cell line is the source of many molecular investigations including expression studies. To establish this cell line as a CML control in our own laboratory, NALM-1 was analyzed by GTG banding, fluorescence in situ hybridization, and spectral karyotyping. Our results differ from the original publication of Sonta and coworkers. We describe for the first time the karyotype of the NALM-1 cell line: 44,X,-X,der(7)t(7;9;15)(q10;?;q15),der(9)t(9;9)(p24;q33 approximately q34)t(9;22)(q34;q11),der(15)t(7;9;15) (?;?;q15),der(22)t(9;22)(q34;q11).
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PMID:Re-analysis of the cell line NALM-1 karyotype by GTG-banding, spectral karyotyping, and whole chromosome painting. 1558 57


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