Posted by rob on November 20, 2009 under Uncategorized | 
Acadesine Kills Chronic Myelogenous Leukemia (CML) Cells through PKC-Dependent Induction of Autophagic Cell Death.
PLoS One. 2009;4(11):e7889
Authors: Robert G, Ben Sahra I, Puissant A, Colosetti P, Belhacene N, Gounon P, Hofman P, Bost F, Cassuto JP, Auberger P
CML is an hematopoietic stem cell disease characterized by the t(9;22) (q34;q11) translocation encoding the oncoprotein p210BCR-ABL. The effect of acadesine (AICAR, 5-Aminoimidazole-4-carboxamide-1-beta-D-ribofuranoside) a compound with known antileukemic effect on B cell chronic lymphoblastic leukemia (B-CLL) was investigated in different CML cell lines. Acadesine triggered loss of cell metabolism in K562, LAMA-84 and JURL-MK1 and was also effective in killing imatinib-resistant K562 cells and Ba/F3 cells carrying the T315I-BCR-ABL mutation. The anti-leukemic effect of acadesine did not involve apoptosis but required rather induction of autophagic cell death. AMPK knock-down by Sh-RNA failed to prevent the effect of acadesine, indicating an AMPK-independent mechanism. The effect of acadesine was abrogated by GF109203X and Ro-32-0432, both inhibitor of classical and new PKCs and accordingly, acadesine triggered relocation and activation of several PKC isoforms in K562 cells. In addition, this compound exhibited a potent anti-leukemic effect in clonogenic assays of CML cells in methyl cellulose and in a xenograft model of K562 cells in nude mice. In conclusion, our work identifies an original and unexpected mechanism by which acadesine triggers autophagic cell death through PKC activation. Therefore, in addition to its promising effects in B-CLL, acadesine might also be beneficial for Imatinib-resistant CML patients.
PMID: 19924252 [PubMed - as supplied by publisher]
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Cathepsin B release after imatinib-mediated lysosomal membrane permeabilization triggers BCR-ABL cleavage and elimination of chronic myelogenous leukemia cells.
Leukemia. 2009 Nov 19;
Authors: Puissant A, Colosetti P, Robert G, Cassuto JP, Raynaud S, Auberger P
Imatinib is the leading compound to treat patients with chronic myelogenous leukemia (CML) but the exact mechanism of its anti-leukemic effect is incompletely elucidated. Through inhibition of BCR-ABL, Imatinib blocks several downstream pathways and induces apoptosis of BCR-ABL positive cells. In this study, we analyzed further the mode of action of Imatinib in different appropriate cellular models of CML either sensitive or resistant to Imatinib and in CD34+ cells from CML patients. Pharmacological or short hairpin RNA-mediated inhibition of BCR-ABL triggers lysosomal membrane permeabilization (LMP) that culminates in activation and redistribution of Cathepsin B (CB) into the cytoplasm of CML cells, in which it triggers directly BCR-ABL degradation. Pharmacological inhibition of CB by CA-074Me or small interfering RNA-mediated knock-down of CB partly protects K562 cells from Imatinib-induced cell death and CB overexpression sensitizes these cells to Imatinib killing. Strikingly, Imatinib-triggered LMP, CB activation and BCR-ABL cleavage in CD34+ cells from CML patients and inhibition of CB confers protection against cell death in clonogenic assays of CD34+ primary cells from CML patients. Hence, we describe an original pathway by which Imatinib participates to the elimination of CML cells through LMP and CB-mediated specific degradation of BCR-ABL.Leukemia advance online publication, 19 November 2009; doi:10.1038/leu.2009.233.
PMID: 19924144 [PubMed - as supplied by publisher]
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Bioequivalence of two film-coated tablets of imatinib mesylate 400 mg: A randomized, open-label, single-dose, fasting, two-period, two-sequence crossover comparison in healthy male South American volunteers.
Clin Ther. 2009 Oct;31(10):2224-2232
Authors: Parrillo-Campiglia S, Ercoli MC, Umpierrez O, Rodríguez P, Márquez S, Guarneri C, Estevez-Parrillo FT, Laurenz M, Estevez-Carrizo FE
Background: Imatinib is a tyrosine kinase inhibitor that has been established as a highly effective therapy for chronic myelogenous leukemia and gastrointestinal stromal tumors. A new generic, once-daily 400-mg tablet of imatinib has been developed by a pharmaceutical company in Argentina, where the regulatory standard for marketing authorization of an imatinib generic is in vitro dissolution testing. Objective: The aim of this study was to assess the bioequivalence of a new generic film-coated test tablet formulation versus a film-coated reference tablet formulation of imatinib 400 mg. The local manufacturer seeks to validate the in vitro performance of this new formulation with a bioequivalence study. Methods: A randomized, open-label, single-dose, fasting, 2-period, 2-sequence crossover design with a 2-week washout period was used in this study. The study population consisted of healthy male South American (Uruguayan) volunteers, who were assigned in a 1:1 ratio to a randomized sequence (test-reference or reference-test). In each period, the test or reference formulation was administered after an overnight fast. During the 72-hour follow-up period, participants were monitored for vital signs and symptoms. Blood samples were collected at 15 time points, including baseline, until 72 hours. Physical examination and laboratory tests (blood, urine) were repeated 1 week after study completion. A noncompartmental model was used to determine the pharmacokinetic parameters of imatinib. The 90% CIs of the test/reference ratios for AUC(0-infinity) and C(max) were determined; the test and reference formulations were considered bioequivalent if the 90% CIs were between 0.80 and 1.25. Adverse events were assessed by a nurse who administered a questionnaire while the healthy volunteers were admitted in the unit. Results: The bioequivalence study was conducted in 30 Uruguayan male volunteers. Demographic characteristics (mean [SD]) included age, 27.8 (6.5) years; weight, 71.2 (9.8) kg; height, 1.71 (0.09) m; and body mass index, 24.3 (3.0) kg/m2. The mean (SD) of AUC(0-infinity) was 38,179 (15,504) ng/mL . h(-1) for the test formulation and 40,554 (17,027) ng/mL . h(-1) for the reference formulation. The mean of Cmax for the test formulation was 2472 (933) ng/mL, and the mean Tmax was 3.28 (0.93) hours. The mean of Cmax for the reference formulation was 2566 (963) ng/mL, and the mean T(max) was 3.63 (1.20) hours. The point estimates (90% CIs) for the test/reference ratios of the log-transformed AUC- and C(max) mean values were 0.95 (0.87-1.03) and 0.97 (0.89-1.05), respectively, which met the regulatory criteria for bioequiv-alence. Thirty-four mild to moderate adverse events were reported (13 with the test formulation and 21 with the reference formulation), and no serious or unexpected adverse events were observed during the study. The adverse events included 16 cases of headache, 13 cases of nausea, 4 cases of vomiting, and 1 episode of diarrhea. Conclusions: The results of this study suggest that the test formulation of imatinib met the regulatory criteria for bioequivalence to the reference formulation in these healthy fasting male volunteers. Both formulations were generally well tolerated and appeared to have a similar adverse-event profile.
PMID: 19922893 [PubMed - as supplied by publisher]
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Extended kinase profile and properties of the protein kinase inhibitor Nilotinib.
Biochim Biophys Acta. 2009 Nov 13;
Authors: Manley PW, Drueckes P, Fendrich G, Furet P, Liebetanz J, Martiny-Baron G, Mestan J, Trappe J, Wartmann M, Fabbro D
As a drug used to treat imatinib-resistant and -intolerant, chronic and advanced phase chronic myelogenous leukaemia, nilotinib is well characterised as a potent inhibitor of the Abl tyrosine kinase activity of wild-type and imatinib-resistant mutant forms of BCR-Abl. Here we review the profile of nilotinib as a protein kinase inhibitor. Although an ATP-competitive inhibitor of Abl, nilotinib binds to a catalytically inactive conformation (DFG-out) of the activation-loop. As a consequence of this, nilotinib exhibits time-dependent inhibition of Abl kinase in enzymatic assays, which can be extrapolated to other targets to explain differences between biochemical activity and cellular assays. Although these differences confound assessment of kinase selectivity, as assessed using a combination of protein binding and transphosphorylation assays, together with cellular autophosporylation and proliferation assays, well established kinase targets of nilotinib in rank order of inhibitory potency are DDR-1 > DDR-2 > BCR-Abl (Abl) > PDGFRalpha/beta > KIT > CSF-1R. In addition nilotinib has now been found to bind to both MAPK11 (p38beta) and MAPK12 (p38alpha), as well as with very high affinity to ZAK kinase. Although neither enzymatic nor cellular data are yet available to substantiate the drug as an inhibitor of ZAK phosphorylation, modeling predicts that it binds in an ATP-competitive fashion.
PMID: 19922818 [PubMed - as supplied by publisher]
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PRIMARY HUMAN ACUTE MYELOGENOUS LEUKEMIA CELLS RELEASE MATRIX METALLOPROTEASES AND THEIR INHIBITORS: RELEASE PROFILE AND PHARMACOLOGICAL MODULATION.
Eur J Haematol. 2009 Nov 17;
Authors: Reikvam H, Hatfield KJ, Oyan AM, Kalland KH, Kittang AO, Bruserud O
Abstract Objectives: Angiogenesis seems important both for leukemogenesis and chemosensitivity in acute myelogenous leukemia (AML). Angiogenesis is regulated by the balance between pro- and antiangiogenic cytokines, which also indicates an important role of matrix metalloproteases (MMPs) and their natural inhibitors, tissue inhibitors of metalloproteases (TIMPs), in angiogenesis. We investigated the constitutive release of MMPs and TIMPs for a large group of consecutive AML patients. Methods: AML cells were cultured in vitro either alone or together with microvascular endothelial cells and levels of MMPs and TIMPs were determined in culture supernatants. Results: AML cells showed constitutive release of several MMPs and TIMPs. For all patients detectable MMP-10 release was observed, and most patients showed detectable release of at least one additional MMP, usually MMP-9 or MMP-2. A significant correlation was found between MMP-9 and TIMP-1 release and the release of several CCL and CXCL chemokines. MMP-9 release was higher for AML cells with monocytic differentiation corresponding to the FAB-subtype M4/M5 AML; it was mainly released in its inactive form, but endogenous active MMP-9 could be detected even in the presence of the constitutively released TIMP-1/2. Endothelial cells released relatively high levels of MMP-10, and these levels were further increased by coculture with AML cells. Patients achieving complete hematological remission after only one induction cycle showed relatively low constitutive MMP-2 release. Conclusion: We conclude that primary human AML cells show constitutive release of both MMPs and TIMPs, and this release may be important for leukemogenesis and possibly also for chemosensitivity.
PMID: 19922462 [PubMed - as supplied by publisher]
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