Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0023418 (leukemia)
 93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Plerixafor [Mozobil, AMD 3100, JM 3100, SDZ SID 791] is a bicyclam derivative that acts as a stem cell mobiliser by blocking the CXCR4 chemokine receptor. Plerixafor was synthesised by Johnson Matthey (AnorMED) in collaboration with the Rega Institute of Leuven, Belgium. Plerixafor is in phase III clinical trials in stem cell transplantation among cancer patients. Plerixafor blocks CXCR4, which triggers the rapid movement of stem cells out of the bone marrow and into circulating blood. These cells can then be collected and used in stem cell transplant procedures. Plerixafor had been available for partnering in Europe. However, decisions concerning partnering arrangements were deferred by AnorMED until top-line clinical data became available (expected in 2007). In November 2006, Genzyme Corporation completed its acquisition of AnorMED. Genzyme intends to commercialise plerixafor in >50 countries throughout the world using its existing transplant business. Evotec OAI was selected by AnorMED to support it in the chemical development of plerixafor. Evotec OAI will use EVOdevelop, its integrated chemical and pharmaceutical development platform, to complete the full validation of the process to plerixafor, including process research and development, cGMP manufacturing and analytical work. Evotec OAI will also be responsible for producing the relevant Chemical Manufacturing Control (CMC) documentation for regulatory filings. Top line results from the phase III studies are expected in the second quarter of 2007 and, assuming these are successful, the marketing submissions are planned for the US in 2007 (launch in 2008), and for Canada and Europe in 2008. Plerixafor has orphan drug status for stem cell transplantation in cancer patients in the US and the EU. AnorMED (now Genzyme) decided to pursue a full Marketing Authorisation Application (MAA) in Europe for plerixafor in stem cell transplant. Previously, the company had been planning on filing a CMA (Conditional Marketing Authorisation) in this region. The change in strategy requires additional phase II trials in the five major EU markets. Multicentre phase II trials with plerixafor have begun in Canada and Germany in approximately 50 patients with non-Hodgkin's lymphoma and multiple myeloma (studies EU21 and C201). Enrolment has been completed in a US-based, multicentre, phase II trial (study 2105) of plerixafor plus G-CSF in patients with multiple myeloma and non-Hodgkin's lymphoma. This study is designed to optimise the administration schedule of this combination therapy regimen. Plerixafor has completed a phase II study (study 2104) in multiple myeloma and NHL patients in combination with chemotherapy. A US-based phase II pilot study (study 2108) with plerixafor as a single mobilising agent in multiple myeloma patients undergoing stem cell transplant is underway. Another US-based phase II pilot study (study 2106) is evaluating plerixafor in combination with the standard mobilisation regimen, G-CSF, in patients with Hodgkin's disease undergoing stem cell transplant. AnorMED completed a phase II study (study 2101) evaluating the potential of plerixafor in combination with G-CSF as a therapy for stem cell transplantation compared to G-CSF therapy alone. The study involved patients with multiple myeloma and patients with NHL. Results indicated that the combination regimen was significantly superior to G-CSF treatment alone in stem cell mobilisation. Further trials are planned for plerixafor, to expand its use in transplant and in other indications including one to investigate the potential of plerixafor to improve the effectiveness of chemotherapy in patients with leukaemia. Phase I trials have been completed.
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PMID:Plerixafor: AMD 3100, AMD3100, JM 3100, SDZ SID 791. 1732 9

We hypothesized that the third complement component (C3) cleavage fragments (C3a and (des-Arg)C3a) are involved in stress/inflammation-related thrombocytosis, and investigated their potential role in reactive thrombocytosis induced by bleeding. We found that platelet counts are lower in C3-deficient mice in response to excessive bleeding as compared to normal littermates and that C3a and (des-Arg)C3a enhance stromal-derived factor-1 (SDF-1)-dependent megakaryocyte (Megs) migration, adhesion and platelet shedding. At the molecular level, C3a stimulates in Megs MAPKp42/44 phosphorylation, and enhances incorporation of CXCR4 into membrane lipid rafts increasing the responsiveness of Megs to SDF-1. We found that perturbation of lipid raft formation by statins decreases SDF-1/C3a-dependent platelet production in vitro and in an in vivo model statins ameliorated post-bleeding thrombocytosis. Thus, inhibition of lipid raft formation could find potential clinical application as a means of ameliorating some forms of thrombocytosis.
Leukemia 2007 May
PMID:Cleavage fragments of the third complement component (C3) enhance stromal derived factor-1 (SDF-1)-mediated platelet production during reactive postbleeding thrombocytosis. 1733 96

Acute myelogenous leukaemia (AML) blasts transmigrate in response to SDF-1alpha. AMD3100, a novel bicyclam molecule which inhibits stromal-derived factor (SDF)-1alpha/CXCR4 interactions, inhibited the transmigration of AML blasts and inhibited outgrowth of leukemia colony forming units. AMD3100 did not abrogate stroma-mediated protection from cytarabine-mediated apoptosis, except in the case of one promyelocytic leukemic sample tested, and it did not influence adhesion of blasts to endothelial monolayers. When AML blasts were pretreated with AMD3100, the positive effects of SDF-1alpha on NOD/SCID engraftment were diminished. This work confirms that AML is influenced by the SDF-1alpha/CXCR4 axis and demonstrates that disruption of this axis by the bicyclam AMD3100 can influence AML microenvironmental interactions.
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PMID:Effects of AMD3100 on transmigration and survival of acute myelogenous leukemia cells. 1740 36

The role of CXCL12 in the bone marrow (BM) homing and growth of B-cell progenitor acute lymphoblastic leukemia (ALL) has been established. However, the effect of modulating CXCL12/CXCR4 interactions on the retention of ALL cells within the supportive BM microenvironment and the expansion and dissemination of ALL cells in vivo has not been examined. We used mouse models of human childhood and murine leukemia and specific peptide and small molecule CXCR4 antagonists to examine the importance of CXCL12/CXCR4 in the development of leukemia in vivo. CXCR4 antagonists mobilized ALL cells into the peripheral blood (PB). Extended administration of CXCR4 antagonists to mice with leukemia resulted in a reduction in the number of leukemic cells in the PB and spleens of animals compared to control treated animals in three of the five cases tested. There was also a marked reduction in the dissemination of ALL cells to extramedullary sites including liver and kidney in all cases where this occurred. Considering the inhibitory effect of stromal layers on the activity of chemotherapeutic agents and the interactive effect of CXCL12 antagonists with chemotherapeutic agents in vitro, this raises the possibility of using these agents to potentiate the effects of current chemotherapy regimens.
Leukemia 2007 Jun
PMID:CXCR4 antagonists mobilize childhood acute lymphoblastic leukemia cells into the peripheral blood and inhibit engraftment. 1741 Jan 86

Leukemia inhibitor factor (LIF) has been shown to potently inhibit HIV-1 replication in vitro and in human organ explant cultures. Furthermore, LIF activates the Jak/Stat signaling pathway with which many viruses, including HIV-1, interfere. We used CXCR4 and the LIF signaling receptor (gp130)-expressing cMAGI cells transfected with CD4, CCR5, and HIV-LTR-beta-galactosidase as a model system to investigate the potential involvement of Stat proteins in the anti-HIV-1 effect of LIF. Pretreatment with recombinant human (rh)LIF resulted in a significantly reduced uptake of HIV-1(BaL) , HIV-1(LAI), and SIVmac251 viral particles without affecting uptake of murine leukemia retroviral particles. HIV-1(BaL), HIV-1(LAI), as well as rhLIF selectively induced phosphorylation of Stat 3 but not Stat 1 or Stat 5. However, treatment of cMAGI cells with rhLIF prior to HIV-1 infection downregulated the HIV-1-mediated Stat 3 phosphorylation. In addition, peripheral blood mononuclear cells (PBMCs) transfected with Stat 3 siRNA prior to HIV-1(LAI) or HIV-1(BaL) infection produced significantly less HIV-1 p24 antigen as compared to nontransfected HIV-1(LAI) and HIV-1(BaL)-infected PBMCs. Thus, the Jak/Stat signaling pathway is important for the HIV-1 replication life cycle and rhLIF excerts its anti-HIV-1 activity by disrupting this signaling cascade.
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PMID:Leukemia inhibitor factor (LIF) inhibits HIV-1 replication via restriction of stat 3 activation. 1741 73

Chemokine (C-X-C motif) receptor 4 (CXCR4) is essential for homing and maintenance of haematopoietic stem cells in distinct stromal cell niches within the marrow. Chemotactic responsiveness of haematopoietic stem cells is restricted to the ligand for CXCR4, stromal cell-derived factor-1 (SDF-1/CXCL12), which is constitutively secreted by marrow stromal cells. Myeloid and lymphoid leukaemia cells also express CXCR4 that induces leukaemia cell chemotaxis and migration beneath marrow stromal cells. CXCR4 expression levels have a major prognostic impact in acute myeloid leukaemia. There is growing in vitro and in vivo evidence that CXCR4 expression by leukaemia cells allows for homing and their retention within the marrow. As such, leukaemia cells appear to utilise CXCR4 to access niches that are normally restricted to progenitor cells, and thereby reside in a microenvironment that favours their growth and survival. CXCR4- and integrin-mediated contact between leukaemia cells and stromal cells protects leukaemia cells from spontaneous and chemotherapy-induced cell death and therefore may represent a mechanism to explain minimal residual disease and subsequent relapses commonly seen in the treatment of these diseases. This review summarises our current knowledge regarding the importance of CXCR4 in acute and chronic leukaemia, discusses the importance of CXCR4 detection by flow cytometry in the diagnostic workup of leukaemia patients, and introduces the potential role of CXCR4-targeting compounds for the treatment of leukaemia patients.
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PMID:The CXCR4 chemokine receptor in acute and chronic leukaemia: a marrow homing receptor and potential therapeutic target. 1745 52

Hematopoietic stem/progenitor cells (HSC/P) reside in the bone marrow in distinct anatomic locations (niches) to receive growth, survival and differentiation signals. HSC/P localization and migration between niches depend on cell-cell and cell-matrix interactions, which result from the cooperation of cytokines, chemokines and adhesion molecules. The CXCL12-CXCR4 pathway, in particular, is essential for myelopoiesis and B lymphopoiesis but the molecular mechanisms of CXCL12 action remain unclear. We previously noted a strong correlation between prolonged CXCL12-mediated focal adhesion kinase (FAK) phosphorylation and sustained pro-adhesive responses in progenitor B cells, but not in mature B cells. Although FAK has been well studied in adherent fibroblasts, its function in hematopoietic cells is not defined. We used two independent approaches to reduce FAK expression in (human and mouse) progenitor cells. RNA interference (RNAi)-mediated FAK silencing abolished CXCL12-induced responses in human pro-B leukemia, REH cells. FAK-deficient REH cells also demonstrated reduced CXCL12-induced activation of the GTPase Rap1, suggesting the importance of FAK in CXCL12-mediated integrin activation. Moreover, in FAK(flox/flox) hematopoietic precursor cells, Cre-mediated FAK deletion resulted in impaired CXCL12-induced chemotaxis. These studies suggest that FAK may function as a key intermediary in signaling pathways controlling hematopoietic cell lodgment and lineage development.
Leukemia 2007 Aug
PMID:Focal adhesion kinase is required for CXCL12-induced chemotactic and pro-adhesive responses in hematopoietic precursor cells. 1756 20

DPP IV/CD26 contributes to cell signalling by various mechanisms: as a receptor or co-receptor, as a component of a membrane-associated signal transduction complex and by virtue of its exopeptidase activity. The presence of enzymatically active DPP IV in a variety of tissues and in plasma makes it challenging to review clinical consequences of chemokine turnover by DPP IV activity, even more so in times when the concept of DPP IV inhibition for therapeutic purposes has reached the stage of clinical application. Among the known substrates of DPP IV/CD26, Stromal cell-derived factor 1 (SDF-1, CXCL12) has gained attention in recent years as a critical mediator of chemotaxis and tissue invasion, especially in the context of malignant disease. SDF-1 and its receptor, CXCR4, differ from other chemokines and their respective receptors by a lack of redundancy and pleiotropism. Therapeutic intervention using CXCR4 antagonists has been proposed. It seems appropriate to review the role of SDF-1 in haematopoiesis and its malignant counterpart, leukaemia, and to assess the interference of DPP IV/CD26 with the SDF-1/CXCR4 axis as well as possible risks and benefits of DPP IV inhibition.
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PMID:SDF-1 (CXCL12) in haematopoiesis and leukaemia: impact of DPP IV/CD26. 1798 66

Stromal-derived factor-1 (SDF-1) and its receptor, CXCR4, are essential for normal hematopoietic progenitor cell movement and adherence within the bone marrow microenvironment. In leukemia, the BCR-ABL1 oncoprotein inhibits SDF-1-dependent cell trafficking within the bone marrow through a mechanism that is not fully understood. Here, we report that BCR-ABL1 in malignant cells constitutively increases expression of activation-dependent epitopes of the beta(2) integrin LFA-1. This is associated with the complete loss of responsiveness of LFA-1 to SDF-1-induced "inside-out" signaling involving CXCR4 and Lyn, leading to aberrant adhesive responses. These data provide a novel, LFA-1-mediated mechanism whereby BCR-ABL1 inhibits SDF-1 action in malignant progenitors.
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PMID:BCR-ABL1 alters SDF-1alpha-mediated adhesive responses through the beta2 integrin LFA-1 in leukemia cells. 1833 98

Bone marrow engraftment in the context of hematopoietic stem cell and progenitor (HSC/P) transplantation is based on the ability of intravenously administered cells to lodge in the medullary cavity and be retained in the appropriate marrow space, a process referred to as homing. It is likely that homing is a multistep process, encompassing a sequence of highly regulated events that mimic the migration of leukocytes to inflammatory sites. In leukocyte biology, this process includes an initial phase of tethering and rolling of cells to the endothelium via E- and P-selectins, firm adhesion to the vessel wall via integrins that appear to be activated in an "inside-out" fashion, transendothelial migration, and chemotaxis through the extracellular matrix (ECM) to the inflammatory nidus. For HSC/P, the cells appear to migrate to the endosteal space of the bone marrow. A second phase of engraftment involves the subsequent interaction of specific HSC/P surface receptors, such as alpha(4)beta(1) integrin receptors with vascular cell-cell adhesion molecule-1 and fibronectin in the ECM, and interactions with growth factors that are soluble, membrane, or matrix bound. We have utilized knockout and conditional knockout mouse lines generated by gene targeting to study the role of Rac1 and Rac2 in blood cell development and function. We have determined that Rac is activated via stimulation of CXCR4 by SDF-1, by adhesion via beta(1) integrins, and via stimulation of c-kit by the stem cell factor-all of which involved in stem cell engraftment. Thus Rac proteins are key molecular switches of HSC/P engraftment and marrow retention. We have defined Rac proteins as key regulators of HSC/P cell function and delineated key unique and overlapping functions of these two highly related GTPases in a variety of primary hematopoietic cell lineages in vitro and in vivo. Further, we have begun to define the mechanisms by which each GTPase leads to specific functions in these cells. These studies have led to important new understanding of stem cell bone marrow retention and trafficking in the peripheral circulation and to the development of a novel small molecule inhibitor that can modulate stem cell functions, including adhesion, mobilization, and proliferation. This chapter describes the biochemical footprint of stem cell engraftment and marrow retention related to Rho GTPases. In addition, it reviews abnormalities of Rho GTPases implicated in human immunohematopoietic diseases and in leukemia/lymphoma.
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PMID:Rho GTPases and regulation of hematopoietic stem cell localization. 1837 78


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