UNIPROT:P31749 - FACTA Search

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Query: UNIPROT:P31749 (AKT)
22,954 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The therapeutic success of imatinib in chronic myeloid leukemia (CML) is hampered by persistence of malignant stem cells. We investigated whether nilotinib, a more potent BCR-ABL kinase inhibitor could target CML primitive progenitors more effectively than imatinib. CML and normal progenitor cells were cultured with nilotinib or imatinib in growth factor supplemented medium. Nilotinib inhibited BCR-ABL kinase activity at lower concentrations than imatinib. Nilotinib inhibited mitogen-activated protein kinase (MAPK), AKT and STAT5 phosphorylation in CML CD34(+) cells in the absence of growth factors (GFs), but did not suppress AKT and STAT5 activity, and resulted in increased MAPK activity, in the presence of GFs. Nilotinib and imatinib resulted in similar suppression of CML primitive and committed progenitors in long-term culture-initiating cell and colony-forming cell assays. Inhibition of progenitor growth was related to marked reduction in proliferation, but only a modest increase in apoptosis. Nilotinib did not show increased efficacy in reducing nondividing CML progenitors compared with imatinib. These results indicate that more potent tyrosine kinase inhibitors by themselves will not be more effective in eliminating CML progenitors than imatinib and that additional mechanism required for maintenance of malignant stem cells need to be identified to improve targeting of leukemia stem cells.
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PMID:Enhanced BCR-ABL kinase inhibition does not result in increased inhibition of downstream signaling pathways or increased growth suppression in CML progenitors. 1827 48

B-cell development is orchestrated by complex signaling networks. Rap1 is a member of the Ras superfamily of small GTP-binding proteins and has 2 isoforms, Rap1a and Rap1b. Although Rap1 has been suggested to have an important role in a variety of cellular processes, no direct evidence demonstrates a role for Rap1 in B-cell biology. In this study, we found that Rap1b was the dominant isoform of Rap1 in B cells. We discovered that Rap1b deficiency in mice barely affected early development of B cells but markedly reduced marginal zone (MZ) B cells in the spleen and mature B cells in peripheral and mucosal lymph nodes. Rap1b-deficient B cells displayed normal survival and proliferation in vivo and in vitro. However, Rap1b-deficient B cells had impaired adhesion and reduced chemotaxis in vitro, and lessened homing to lymph nodes in vivo. Furthermore, we found that Rap1b deficiency had no marked effect on LPS-, BCR-, or SDF-1-induced activation of mitogen-activated protein kinases and AKT but clearly impaired SDF-1-mediated activation of Pyk-2, a key regulator of SDF-1-mediated B-cell migration. Thus, we have discovered a critical and distinct role of Rap1b in mature B-cell trafficking and development of MZ B cells.
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PMID:A critical role of Rap1b in B-cell trafficking and marginal zone B-cell development. 1831 99

Despite promising results from clinical studies of ABL kinase inhibitors, a challenging problem that remains is the T315I mutation against which neither nilotinib nor dasatinib show significant activity. In the present study, we investigated the activity of a novel Aurora kinase inhibitor, VE-465, against leukemia cells expressing wild-type BCR-ABL or the T315I mutant form of BCR-ABL. We observed a dose-dependent reduction in the level of BCR-ABL autophosphorylation in VE-465-treated cells. Exposure to the combination of VE-465 and imatinib exerted an enhanced apoptotic effect in K562 cells. Combined treatment with VE-465 and imatinib caused more attenuation of the levels of phospho-AKT and c-Myc in K562 cells. Further, the isobologram indicated the synergistic effect of simultaneous exposure to VE-465 and imatinib in K562 cells. To assess the in vivo efficacy of VE-465, athymic nude mice were injected intravenously with BaF3 cells expressing wild-type BCR-ABL or the T315I mutant form. The vehicle-treated mice died of a condition resembling acute leukemia by 28 days; however, nearly all mice treated with VE-465 (75 mg/kg, twice daily; intraperitoneally for 14 days) survived for more than 56 days. Histopathological analysis of vehicle-treated mice revealed infiltration of the spleen. In contrast, histopathological analysis of organs from VE-465-treated mice demonstrated normal tissue architecture. Taken together, the present study shows that VE-465 exhibits a desirable therapeutic index that can reduce the in vivo growth of T315I mutant form and wild-type BCR-ABL-expressing cells in an efficacious manner.
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PMID:Activity of a novel Aurora kinase inhibitor against the T315I mutant form of BCR-ABL: in vitro and in vivo studies. 1842 56

Some cases of pre-B cell acute lymphoblastic leukemia (pre-B-ALL) are caused by the Philadelphia (Ph) chromosome-encoded BCR-ABL oncogene, and these tend to have a poor prognosis. Inhibitors of the PI3K/AKT pathway reduce BCR-ABL-mediated transformation in vitro; however, the specific PI3K isoforms involved are poorly defined. Using a murine model of Ph+ pre-B-ALL, we found that deletion of both Pik3r1 and Pik3r2, genes encoding class IA PI3K regulatory isoforms, severely impaired transformation. BCR-ABL-dependent pre/pro-B cell lines could be established at low frequency from progenitors that lacked these genes, but the cells were smaller, proliferated more slowly, and failed to cause leukemia in vivo. These cell lines displayed nearly undetectable PI3K signaling function and were resistant to the PI3K inhibitor wortmannin. However, they maintained activation of mammalian target of rapamycin (mTOR) and were more sensitive to rapamycin. Treatment with rapamycin caused feedback activation of AKT in WT cell lines but not PI3K-deficient lines. A dual inhibitor of PI3K and mTOR, PI-103, was more effective than rapamycin at suppressing proliferation of mouse pre-B-ALL and human CD19+CD34+)Ph+ ALL leukemia cells treated with the ABL kinase inhibitor imatinib. Our findings provide mechanistic insights into PI3K dependency in oncogenic networks and provide a rationale for targeting class IA PI3K, alone or together with mTOR, in the treatment of Ph+ ALL.
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PMID:Ablation of PI3K blocks BCR-ABL leukemogenesis in mice, and a dual PI3K/mTOR inhibitor prevents expansion of human BCR-ABL+ leukemia cells. 2856 34

Rap1 is a small GTPase that belongs to Ras superfamily. This ubiquitously expressed GTPase is a key regulator of integrin functions. Rap1 exists in two isoforms: Rap1a and Rap1b. Although Rap1 has been extensively studied, its isoform-specific functions in B cells have not been elucidated. In this study, using gene knockout mice, we show that Rap1b is the dominant isoform in B cells. Lack of Rap1b significantly reduced the absolute number of B220(+)IgM(-) pro/pre-B cells and B220(+)IgM(+) immature B cells in bone marrow. In vitro culture of bone marrow-derived Rap1b(-/-) pro/pre-B cells with IL-7 showed similar proliferation levels but reduced adhesion to stromal cell line compared with wild type. Rap1b(-/-) mice displayed reduced splenic marginal zone (MZ) B cells, and increased newly forming B cells, whereas the number of follicular B cells was normal. Functionally, Rap1b(-/-) mice showed reduced T-dependent but normal T-independent humoral responses. B cells from Rap1b(-/-) mice showed reduced migration to SDF-1, CXCL13 and in vivo homing to lymph nodes. MZ B cells showed reduced sphingosine-1-phosphate-induced migration and adhesion to ICAM-1. However, absence of Rap1b did not affect splenic B cell proliferation, BCR-mediated activation of Erk1/2, p38 MAPKs, and AKT. Thus, Rap1b is crucial for early B cell development, MZ B cell homeostasis and T-dependent humoral immunity.
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PMID:Rap1b regulates B cell development, homing, and T cell-dependent humoral immunity. 1871 9

Glioblastoma is defined by its aggressive invasion, microvascular proliferation, and central necrosis. BMS-354825 (dasatinib) is an ATP-competitive small-molecule inhibitor effective in treating drug-resistant tumors with mutant BCR-ABL, KIT, and epidermal growth factor receptor by blocking tyrosine phosphorylation sites that are critical in tumorigenesis. In studying the action of dasatinib in human glioblastoma, we found that levels of phospho-SRC, AKT, and ribosomal protein S6 were decreased in cell lines treated with low nanomolar concentrations of dasatinib at baseline and following stimulation with epidermal growth factor. Furthermore, an increased sensitivity to dasatinib was noted in glioma cells with functional PTEN. Reduction of invasive potential was observed in vitro at concentrations well below the IC(50) of dasatinib, which was corroborated by immunofluorescence staining showing disruption of paxillin localization to focal adhesions and decreases in focal adhesion kinase autophosphorylation. Cell cycle analysis revealed minimal G(1) arrest but a significant increase in autophagic cell death in glioma cells treated with dasatinib as assessed by acridine orange staining and a concomitant increase in light chain 3 expression and processing. Combination treatment of glioma cells with dasatinib and temozolomide resulted in a significant increase in cell cycle disruption and autophagic cell death. Dasatinib in combination with temozolomide more effectively increased the therapeutic efficacy of temozolomide than when dasatinib was combined with carboplatin or irinotecan. These results strongly support the clinical use of dasatinib in the treatment of glioblastoma and provide a rationale for combination therapy with dasatinib and temozolomide.
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PMID:Dasatinib-induced autophagy is enhanced in combination with temozolomide in glioma. 1919 Jan 19

We addressed how BCR-ABL oncoprotein increased Skp2 expression. Treatment of Imatinib or LY294002 reduced Skp2 mRNA in BCR-ABL-positive K562 cells. Knockdown of AKT by small hairpin RNA also reduced Skp2 expression. We found that BCR-ABL up-regulated Skp2 via Sp1 because (1) the Sp1 site located at the -386/-380 promoter region was important for BCR-ABL-induced Skp2 promoter activity, (2) chromatin immunoprecipitation assay demonstrated that Imatinib inhibited the recruitment of p300 to the Sp1 site of Skp2 promoter and (3) knockdown of Sp1 reduced Skp2 expression in K562 cells. These results suggest that BCR-ABL controls Skp2 gene transcription via the PI3K/AKT/Sp1 pathway.
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PMID:Transcriptional activation of Skp2 by BCR-ABL in K562 chronic myeloid leukemia cells. 1932 85

Chronic myeloid leukemia (CML) is a neoplastic disease of the hematopoietic stem cell. Heterogeneous nuclear ribonucleoprotein K (hnRNPK) may up-regulate the transcriptional activity of some oncogenes in cancerous cells. The aim of this study was to verify the expression pattern of hnRNPK in patients with CML, to explore its association with BCR-ABL and some abnormal signaling pathways, and to discover how hnRNPK contributes to the progression of CML. In this study, 15 patients with CML (9 in chronic phase and 6 in blast crisis) were enrolled in this study. The expression of hnRNPK in mononuclear cells (MNCs) from these patients was detected by Western blotting and fluorimeter-based quantitative real-time reverse transcriptase polymerase chain reaction. hnRNPK expression levels in K562 cell line and imatinib-resistant leukemic cell line K562R, following the treatments with the inhibitors of Ras-MAPK (PD98059), PI3K/AKT (LY294002), JAK/STAT (AG490) signaling pathways, and BCR-ABL [imatinib mesylate (IM)], were also determined. As the results, the overexpression of hnRNPK in protein and gene patterns was detected in MNCs from patients with CML comparing with normal donors. Especially, its level in MNCs from patients with CML-blast crisis was significantly higher than in CML-chronic phase cells (P < 0.01). After the treatment with PD98059 (at 4, 8, 24, and 48 h) and IM (at 48 h), the expression levels of hnRNPK in leukemic cell lines were decreased, comparing with DMSO control group (P < 0.05). In conclusion, the results suggest that the overexpression of hnRNPK, which is regulated by BCR-ABL and Ras-MAPK signaling pathways, may promote the progression of CML. hnRNPK would be a potential marker and therapeutic target of CML evolution.
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PMID:The role of heterogeneous nuclear ribonucleoprotein K in the progression of chronic myeloid leukemia. 1965 39

Phosphoinositide kinase (PI3K) is activated by various receptors on lymphocytes and regulates development, activation, and tolerance. Genetic ablation of PI3K function in T cells leads to the appearance of autoimmune disorders. In B cells, loss of the class IA regulatory subunit p85alpha causes a partial defect in B cell development and proliferation, whereas loss of p85beta alone causes no apparent changes in B cell function. Here we investigate further the consequences of p85beta deletion in B cells, in the presence or absence of p85alpha. We demonstrate that p85beta partially compensates for loss of p85alpha in B cell development and peripheral survival, with greater defects observed when both isoforms are absent. BCR-mediated AKT phosphorylation is partially reduced in p85alpha-deficient B cells and further diminished with concomitant loss of p85beta. Unexpectedly, loss of p85beta results in increased BCR-mediated proliferation and ERK phosphorylation. These results indicate that the p85beta regulatory isoform has partially overlapping functions with p85alpha in B cells as well as a unique role in opposing BCR responses.
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PMID:The p85beta regulatory subunit of phosphoinositide 3-kinase has unique and redundant functions in B cells. 1981 Dec 62

The mutant JAK2V617F tyrosine kinase (TK) is present in the majority of patients with BCR-ABL-negative myeloproliferative neoplasms (MPNs). JAK2V617F activates downstream signaling through the signal transducers and activators of transcription (STAT), RAS/mitogen-activated protein kinase (MAPK), and phosphatidylinositol 3 (PI3)/AKT pathways, conferring proliferative and survival advantages in the MPN hematopoietic progenitor cells (HPCs). Treatment with the pan-histone deacetylase (HDAC) inhibitor panobinostat (PS) is known to inhibit the chaperone function of heat shock protein 90, as well as induce growth arrest and apoptosis of transformed HPCs. Here, we demonstrate that PS treatment depletes the autophosphorylation, expression, and downstream signaling of JAK2V617F. Treatment with PS also disrupted the chaperone association of JAK2V617F with hsp90, promoting proteasomal degradation of JAK2V617F. PS also induced apoptosis of the cultured JAK2V617F-expressing human erythroleukemia HEL92.1.7 and Ba/F3-JAK2V617F cells. Treatment with the JAK2 TK inhibitor TG101209 attenuated JAK2V617F autophosphorylation and induced apoptosis of HEL92.1.7 and Ba/F3-JAK2V617F cells. Cotreatment with PS and TG101209 further depleted JAK/STAT signaling and synergistically induced apoptosis of HEL92.1.7 and Ba/F3-JAK2V617F cells. Cotreatment with TG101209 and PS exerted greater cytotoxicity against primary CD34(+) MPN cells than normal CD34(+) HPCs. These in vitro findings suggest combination therapy with HDAC and JAK2V617F inhibitors is of potential value for the treatment of JAK2V617F-positive MPN.
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PMID:Cotreatment with panobinostat and JAK2 inhibitor TG101209 attenuates JAK2V617F levels and signaling and exerts synergistic cytotoxic effects against human myeloproliferative neoplastic cells. 1982 2

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