Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.10.2 (focal adhesion kinase)
 44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report here that Janus kinase 3 (Jak3) is a primary response gene for interleukin-6 (IL-6) in macrophage differentiation, and ectopic overexpression of Jak3 accelerates monocytic differentiation of normal mouse bone marrow cells stimulated with cytokines. Furthermore, we show that incubation of normal mouse bone marrow cells with a JAK3-specific inhibitor results in profound inhibition of myeloid colony formation in response to granulocyte-macrophage colony-stimulating factor or the combination of stem cell factor, IL-3, and IL-6. In addition, mutagenesis of the Jak3 promoter has revealed that Sp1 binding sites within a -67 to -85 element and a signal transducer and activator of transcription (Stat) binding site at position -44 to -53 are critical for activation of Jak3 transcription in murine M1 myeloid leukemia cells stimulated with IL-6. Electrophoretic mobility shift assay (EMSA) analysis has demonstrated that Sp1 can bind to the -67 to -85 element and Stat3 can bind to the -44 to -53 STAT site in IL-6-stimulated M1 cells. Additionally, ectopic overexpression of Stat3 enhanced Jak3 promoter activity in M1 cells. This mechanism of activation of the murine Jak3 promoter in myeloid cells is distinct from a recently reported mechanism of activation of the human JAK3 promoter in activated T cells.
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PMID:Mechanisms associated with IL-6-induced up-regulation of Jak3 and its role in monocytic differentiation. 1497 41

Myeloid leukaemias are frequently associated with translocations and mutations of tyrosine kinase genes. The products of these oncogenes, including BCR-ABL, TEL-PDGFR, Flt3 and c-Kit, have elevated tyrosine kinase activity and transform haematopoietic cells, mainly by augmentation of proliferation and enhanced viability. Activated ABL kinases are associated with chronic myeloid leukaemia. Mutations in platelet-derived growth factor receptor beta are associated with chronic myelomonocytic leukaemia. Flt3 or c-Kit cooperate with other types of oncogenes to create fully transformed acute leukaemias. Elevated activity of these tyrosine kinases is crucial for transformation, thus making the kinase domain an ideal target for therapeutic intervention. Tyrosine kinase inhibitors for various kinases are currently being evaluated in clinical trials and are potentially useful therapeutic agents in myeloid leukaemias. Here, the authors review the signalling activities, mechanism of transformation and therapeutic targeting of several tyrosine kinase oncogenes important in myeloid leukaemias.
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PMID:Targeting mutated tyrosine kinases in the therapy of myeloid leukaemias. 1516 29

Tumors expressing the ABL oncoproteins (BCR/ABL, TEL/ABL, v-ABL) can avoid apoptosis triggered by DNA damaging agents. The tumor suppressor protein p53 is an important activator of apoptosis in normal cells; conversely its functional loss may cause drug resistance. The ABL oncoprotein-p53 paradigm represents the relationship between an oncogenic tyrosine kinase and a tumor suppressor gene. Here we show that BCR/ABL oncoproteins employ p53 to induce resistance to DNA damage in myeloid leukemia cells. Cells transformed by the ABL oncoproteins displayed accumulation of p53 upon DNA damage. In contrast, only a modest increase of p53 expression followed by activation of caspase-3 were detected in normal cells expressing endogenous c-ABL. Phosphatidylinositol-3 kinase-like protein kinases (ATR and also ATM) -dependent phosphorylation of p53-Ser15 residue was associated with the accumulation of p53, and stimulation of p21(Waf-1) and GADD45, resulting in G(2)/M delay in BCR/ABL cells after genotoxic treatment. Inhibition of p53 by siRNA or by the temperature-sensitive mutation reduced G(2)/M accumulation and drug resistance of BCR/ABL cells. In conclusion, accumulation of the p53 protein contributed to prolonged G(2)/M checkpoint activation and drug resistance in myeloid cells expressing the BCR/ABL oncoproteins.
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PMID:BCR/ABL recruits p53 tumor suppressor protein to induce drug resistance. 1549 10

NVP-LAQ824 is a novel potent hydroxamic acid-derived histone deacetylase inhibitor that induces apoptosis in nanomolar concentrations in myeloid leukemia cell lines and patient samples. Here we show the activity of NVP-LAQ824 in acute myeloid leukemia cells and BCR/ABL-expressing cells of mouse and human origin, both sensitive and resistant to imatinib mesylate (Gleevec, STI-571). Whereas imatinib inhibited overall cellular tyrosine phosphorylation in Ba/F3.p210 cells, NVP-LAQ824 did not inhibit tyrosine phosphorylation, and did not affect BCR/ABL or ABL protein expression. Neither compound was able to inhibit cellular tyrosine phosphorylation in the imatinib-resistant Ba/F3.p210-T315I cell line. These data taken together suggest that BCR/ABL kinase activity is not a direct target of NVP-LAQ824. Synergy between NVP-LAQ824 and imatinib was demonstrated against BCR/ABL-expressing K562 myeloid leukemia cell lines. In addition, we show that NVP-LAQ824 was well tolerated in vivo in a pre-clinical murine leukemia model, with antileukemia activity resulting in significant prolongation of the survival of mice when treated with NVP-LAQ824 compared to control mice. Taken together, these findings provide the framework for NVP-LAQ824 as a novel therapeutic in myeloid malignancies.
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PMID:Histone deacetylase inhibitor NVP-LAQ824 has significant activity against myeloid leukemia cells in vitro and in vivo. 1549 78

Oncogenic mutations of the receptor tyrosine kinase KIT are encountered in myeloid leukemia and various solid tumors, including gastrointestinal stromal tumors. We previously identified the human oncogenic germ line mutant KIT(K642E), a substitution in the tyrosine kinase 1 domain (TK1D) in a familial form of gastrointestinal stromal tumors. The effects of oncogenic KIT mutants on cell signaling and regulation are complex. Cellular models are valuable basic tools to tailor novel strategies on specific cellular and molecular bases for tumors expressing KIT oncogenic mutants. Murine KIT(WT) and the murine homologues of human KIT oncogenic mutants, further referred to as KIT(K641E) and KIT(del559), a point deletion in the juxtamembrane domain (JMD), were stably expressed in IL-3-dependent Ba/F3 cells. Major differences in the constitutively activation of Akt/PKB, MAP kinases and STATs pathways were observed between KIT(K641E) and KIT(del559), whereas KIT ligand elicited responses in both mutants. Noteworthy, the protein level of the phosphoinositide phosphatase SHIP1, but not SHIP2 and PTEN, was reduced in KIT(K641E) only while inhibition of KIT phosphorylation reversibly raised SHIP1 level in both JMD and TK1D oncogenic mutants, unraveling the control of SHIP protein level by KIT phosphorylation.
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PMID:Differences in signaling pathways and expression level of the phosphoinositide phosphatase SHIP1 between two oncogenic mutants of the receptor tyrosine kinase KIT. 1599 Feb 78

The recently described JAK2 V617F mutation, present in a substantial proportion of nonchronic myelogenous leukemia chronic myeloproliferative disorders (non-CML CMPDs), is changing the way we conceptualize and diagnose these diseases. We hypothesized that the activation of this tyrosine kinase might result in activation of downstream mediators such as STAT5, which would be detectable in bone marrow biopsies. We examined the expression of activated STAT5 (nuclear phospho-STAT5) in 73 bone marrow biopsies from patients with CMPDs [20 essential thrombocythemia (ET), 26 chronic idiopathic myelofibrosis (CIMF), and 27 polycythemia vera] and 39 controls. We compared the results with the JAK2 mutational status and clinical parameters. The frequency of the JAK2 V617F was 73% (85% in PV, 65% in ET, and 65% in CIMF). All patients with the JAK2 V617F showed abnormal nuclear megakaryocytic phospho-STAT5 (nMEG pSTAT5) expression. In the JAK2 wild-type group, nMEG pSTAT5 was observed in 2/7 ET, and 3/9 CIMF patients. nMEG pSTAT5 staining was 100% sensitive and 88% specific for JAK2 V617F. Clinically, nMEG pSTAT5+ patients seemed to require cytoreductive therapy more often than those without nMEG p-STAT expression. pSTAT5 immunohistochemistry is a useful diagnostic test in bone marrow biopsies from suspected non-CML CMPD patients. It identifies most of the patients with the JAK2 V617F but also other JAK2 wild-type CMPD patients. The presence of nMEG pSTAT5 in a subset of CMPD patients lacking the mutation suggests that alternate tyrosine kinase/phosphatase pathways may be involved and warrant further investigation. Phosphoprotein detection represents a new area for diagnostic pathology that exploits specific functional characteristics of cells within the context of a tissue section.
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PMID:Bone marrow phospho-STAT5 expression in non-CML chronic myeloproliferative disorders correlates with JAK2 V617F mutation and provides evidence of in vivo JAK2 activation. 1725 68

Myeloid leukemia arises from leukemia stem cells (LSCs), which are resistant to standard chemotherapy agents and likely to be a major cause of drug-resistant disease and relapse. To investigate the in vivo properties of LSCs, we developed a mouse model in which the biologic features of human LSCs are closely mimicked. Primitive normal hematopoietic cells were modified to express the BCR/ABL and Nup98/HoxA9 translocation products, and a distinct LSC population, with the aberrant immunophenotype of lineage(-), Kit(+/-), Flt3(+), Sca(+), CD34(+), and CD150(-), was identified. In vivo studies were then performed to assess the response of LSCs to therapeutic insult. Treatment of animals with the ABL kinase inhibitor imatinib mesylate induced specific modulation of blasts and progenitor cells but not stem- cell populations, thereby recapitulating events inferred to occur in human chronic myelogenous leukemia (CML) patients. In addition, challenge of leukemic mice with total body irradiation was selectively toxic to normal hematopoietic stem cells (HSCs), suggesting that LSCs are resistant to apoptosis and/or senescence in vivo. Taken together, the system provides a powerful means by which the in vivo behavior of LSCs versus HSCs can be characterized and candidate treatment regimens can be optimized for maximal specificity toward primitive leukemia cells.
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PMID:Leukemia stem cells in a genetically defined murine model of blast-crisis CML. 1760 86

In this study, we determined if in vitro resistance to prednisolone and dexamethasone could be circumvented by cortivazol or methylprednisolone, or reversed by meta-iodobenzylguanidine in pediatric lymphoblastic and myeloid leukemia. As there were strong correlations between the LC50 values (drug concentration inducing 50% leukemic cell kill, LCK) of the different glucocorticoids and median prednisolone/methylprednisolone, prednisolone/dexamethasone and prednisolone/cortivazol LC50 ratios did not differ between the leukemia subtypes, we conclude that none of the glucocorticoids had preferential anti-leukemic activity. Meta-iodobenzylguanidine however, partially reversed glucocorticoid resistance in 19% of the lymphoblastic leukemia samples.
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PMID:Circumvention of glucocorticoid resistance in childhood leukemia. 1839 53

Though infantile leukemia has a historically poor prognosis, there may be a subset of patients with cutaneous disease whose disease will resolve without therapy. The authors report a case of infantile leukemia cutis who presented with a single subcutaneous chloroma that spontaneously resolved over the course of several weeks and who remains without evidence of disease nearly two years later. After reviewing the literature of congenital leukemia cutis, the authors conclude that withholding chemotherapy in infants with cutaneous myeloid leukemia in the absence of known negative prognostic factors (MLL or BCR-ABL translocations) or progressive disease is clinically indicated.
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PMID:Spontaneous resolution of a single lesion of myeloid leukemia cutis in an infant: case report and discussion. 1856 48

Advances in the therapy of malignancy have been accompanied by an increased frequency of cases of secondary acute myelogenous leukemia and related clonal cytopenias and oligoblastic (subacute) myelogenous leukemia (myelodysplastic syndromes). The acute myelogenous leukemia incidence can be increased by high-dose acute ionizing radiation exposure, alkylating agents, topoisomerase II inhibitors, possibly other DNA-damaging therapeutic agents, heavy, prolonged cigarette smoking, and high dose-time exposure to benzene, the latter less frequently seen in industrialized countries with worksite regulations. Acute myelogenous leukemia and myelodysplastic syndromes may result from innumerable primary types of chromosome damage. In the case of chronic myelogenous leukemia, a specific break in chromosome bands 9q34 and 22q11 must occur to result in the causal fusion oncogene (BCR-ABL). A review of 11 studies of the chromosomal abnormalities found in presumptive cases of cytotoxic therapy-induced leukemia and of 40 studies of the subtypes of leukemia that occur following cytotoxic therapy for other cancers has not provided evidence of an increased risk for chemically induced BCR-ABL-positive chronic myelogenous leukemia. Studies of the effects of alkylating agents, topoisomerase inhibitors, and benzene on chromosomes of hematopoietic cells in vitro, coupled with the aforementioned epidemiological studies of secondary leukemia after cytotoxic therapy or of persons exposed to high dose-time concentrations of benzene in the workplace, do not indicate a relationship among chemical exposure, injury to chromosome bands 9q34 and 22q11, and an increased risk for BCR-ABL-positive chronic myelogenous leukemia.
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PMID:Is there an entity of chemically induced BCR-ABL-positive chronic myelogenous leukemia? 1858 19


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