Diazotization of kynurenine by acidified nitrite secreted from indoleamine 2,3-dioxygenase-expressing myeloid dendritic cells

Hara, Toshiaki, Yamakura, Fumiyuki, Takikawa, Osamu, Hiramatsu, Rie, Kawabe, Tsutomu, Isobe, Ken-ichi, Nagase, Fumihiko, 長瀬, 文彦

03 1900

No description available.

Indoleamine 2,3-dioxygenase

Tryptophan

Kynurenine

Nitric oxide

Diazotization

High-affinity uptake of kynurenine and nitric oxide-mediated inhibition of indoleamine 2,3-dioxygenase in bone marrow-derived myeloid dendritic cells

Hara, Toshiaki, Ogasawara, Nanako, Akimoto, Hidetoshi, Takikawa, Osamu, Hiramatsu, Rie, Kawabe, Tsutomu, Isobe, Ken-ichi, Nagase, Fumihiko, 長瀬, 文彦

15 February 2008

No description available.

Indoleamine 2,3-dioxygenase

Tryptophan

Kynurenine

Nitric oxide

Transport system L

Design and mechanism of action of novel agents termed "combi-molecules" engineered for tandem targeting for Bcr-abl expressing leukemia cells

Katsoulas, Athanasia.

January 2007

Bcr-abl expression being associated with anti-apoptotic signaling and expression of DNA repair enzymes, we surmised that single molecules capable of blocking abl tyrosine kinase (TK) function and damaging DNA should lead to compounds with potency superior to that of GleevecRTM. To this end, we designed novel agents termed "combi-molecules" programmed to not only behave as bcr-abl inhibitors on their own, but also to further degrade to another inhibitor and a DNA damaging species. The released inhibitor was designed to sustain bcr-abl inhibition following degradation of the combi-molecule and the DNA damaging species to activate pathways leading to apoptosis. To model this strategy termed "combi-targeting", we synthesized ZRCM5 (a monoalkyltriazene) that showed antiproliferative activity superior to that of the classical DNA damaging agent TemodalRTM, but not to that of Gleevec RTM. This result was imputed to the rather weak bcr-abl inhibitory activity of ZRCM5 and its strong DNA damaging property. Another prototype designed to contain an aniline mustard moiety (AK04) was a strong bcr-abl inhibitor but a poor DNA alkylating agent. Its cytotoxic activity was again stronger than that of the clinical alkylating agent chlorambucil but inferior to that of GleevecRTM. Further chemical studies directed at structural modification of the benzamide moiety led to the synthesis of ZRF1 with strong potency against bcr-abl TK and strong DNA damaging property. This novel optimized combi-molecule showed a 1.6-3-fold greater potency than GleevecRTM against bcr-abl expressing cells. Further investigation with ZRF1, showed that its cytotoxic potency was dependent on the p53 wild-type status of the cells. In cells expressing wild-type p53, p21 transactivation was associated with cell cycle arrest and that of Bax with apoptosis. In addition to, the pro-apoptotic effect of bcr-abl inhibition, these multiple mechanisms of action may synergistically enhance the cytotoxic potency of ZRF1 in p53 wild-type cells. The study conclusively demonstrated that p53 is a major determinant for the cytotoxic advantage of the novel combi-molecular approach in chronic myelogenous leukemia (CML), a disease in which 70-85% of all cases express wild-type p53.

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Phosphoproteomic Analysis of Acute Myeloid Leukemia

Durbin, Joshua N.

21 November 2012

Acute myeloid leukemia (AML) is a clonal hematopoietic stem cell malignancy, marked by suppressed production of normal terminally differentiated and progenitor hematopoietic cells, and increased cellular proliferation, survival, invasion, and migration of poorly differentiated hematopoietic precursor cells called leukemic blasts. Clinical outcomes vary from good to very poor, and standard therapeutic regiments are only successful in inducing remission for approximately one half of patients. Through the use of phospho tyrosine mass spectrometry, we have identified putative candidate proteins which may be implicated in disease pathogenesis. Our in vitro data suggest a complex within the AML cell lines MOLM-14 and MV4-11 involving tyrosine phosphorylated DAP12, FCER1G, SYK, LYN, and CBL. In addition, we show the ability of high concentrations (µM) of SB203580, a p38α catalytic site inhibitor, to paradoxically sensitize cells to cytarabine while providing a modest proliferative advantage to cells treated with daunorubicin.

tyrosine kinase

acute myeloid leukemia

AML

kinase

cancer

phosphoproteomics

src family kinase

0760

0379

0307

Auger Electron-emitting Radioimmunotherapeutic (RIT) Agent Specific for Leukemic Stem Cells

Gao, Jin Hua

04 July 2013

Objective: CSL360 is a chimeric IgG1 mAb recognizing CD123+/CD131- LSCs responsible for acute myeloid leukemia (AML). The in vitro targeting properties of 111In-labeled CSL360 modified with nuclear localization sequence (NLS) were evaluated in AML cells. Methods: 111In-NLS-CSL360 was constructed and its binding affinity, cellular uptake and nuclear importation were analyzed on CD123+ cells. Cytotoxicity was evaluated by clonogenic assays on AML cells (CD123+/CD131-). Results: 111In-NLS-CSL360 exhibited preserved binding to CD123. High cellular and nuclear uptake was observed at 266 nM after 24 hour of incubation. Nuclear uptake of 111In-NLS-CSL360 (266 nM) was 2.0-fold higher than 111In-CSL360 (266 nM) after 24 hour of incubation. Clonogenic survival (CS) of AML cells was reduced to 27.5 ± 4.1%. The nuclear uptake and cytotoxicity were reduced when pre-exposed to unlabeled CSL360, indicating 111In-NLS-CSL360 was CD123-specific. Conclusion: 111In-NLS-CSL360 could be a promising radioimmunotherapeutic agent specific for LSCs.

auger electron radioimmunotherapy

acute myeloid leukemia

leukemic stem cells

CD123

111-indium

0491

0992

0756

Phosphoproteomic Analysis of Acute Myeloid Leukemia

Durbin, Joshua N.

21 November 2012

Acute myeloid leukemia (AML) is a clonal hematopoietic stem cell malignancy, marked by suppressed production of normal terminally differentiated and progenitor hematopoietic cells, and increased cellular proliferation, survival, invasion, and migration of poorly differentiated hematopoietic precursor cells called leukemic blasts. Clinical outcomes vary from good to very poor, and standard therapeutic regiments are only successful in inducing remission for approximately one half of patients. Through the use of phospho tyrosine mass spectrometry, we have identified putative candidate proteins which may be implicated in disease pathogenesis. Our in vitro data suggest a complex within the AML cell lines MOLM-14 and MV4-11 involving tyrosine phosphorylated DAP12, FCER1G, SYK, LYN, and CBL. In addition, we show the ability of high concentrations (µM) of SB203580, a p38α catalytic site inhibitor, to paradoxically sensitize cells to cytarabine while providing a modest proliferative advantage to cells treated with daunorubicin.

tyrosine kinase

acute myeloid leukemia

AML

kinase

cancer

phosphoproteomics

src family kinase

0760

0379

0307

Auger Electron-emitting Radioimmunotherapeutic (RIT) Agent Specific for Leukemic Stem Cells

Gao, Jin Hua

04 July 2013

Objective: CSL360 is a chimeric IgG1 mAb recognizing CD123+/CD131- LSCs responsible for acute myeloid leukemia (AML). The in vitro targeting properties of 111In-labeled CSL360 modified with nuclear localization sequence (NLS) were evaluated in AML cells. Methods: 111In-NLS-CSL360 was constructed and its binding affinity, cellular uptake and nuclear importation were analyzed on CD123+ cells. Cytotoxicity was evaluated by clonogenic assays on AML cells (CD123+/CD131-). Results: 111In-NLS-CSL360 exhibited preserved binding to CD123. High cellular and nuclear uptake was observed at 266 nM after 24 hour of incubation. Nuclear uptake of 111In-NLS-CSL360 (266 nM) was 2.0-fold higher than 111In-CSL360 (266 nM) after 24 hour of incubation. Clonogenic survival (CS) of AML cells was reduced to 27.5 ± 4.1%. The nuclear uptake and cytotoxicity were reduced when pre-exposed to unlabeled CSL360, indicating 111In-NLS-CSL360 was CD123-specific. Conclusion: 111In-NLS-CSL360 could be a promising radioimmunotherapeutic agent specific for LSCs.

auger electron radioimmunotherapy

acute myeloid leukemia

leukemic stem cells

CD123

111-indium

0491

0992

0756

MR Diffusion Measurements of Apoptotic Changes in Tumour Cells

Fichtner, Nicole Damara

11 July 2013

Monitoring treatment efficacy is a large area of cancer research as it can increase the effectiveness of therapy regimens. Diffusion weighted Magnetic Resonance imaging (DWI), allows assessment of tissue microstructure without exogenous contrast agents. In this thesis, two different DWI techniques were used to acquire data from acute myeloid leukemia cells undergoing apoptosis, and data was fitted to an analytical model of re- stricted diffusion. Results indicated a decrease in average restriction size from 6.4 to 2.7μm, and an increase in the restricted diffusion coefficient from 0.17 to 0.82μm^2/ms in untreated versus treated cells. The free diffusion coefficient was constant indicating changes in restrictions, rather than any intrinsic changes in the intra-cellular or extra- cellular fluid. This combination of techniques has the potential for use in preclinical and clinical settings as it demonstrates that apoptotic changes may be measured consistently.

imaging

magnetic resonance imaging

cancer

diffusion

apoptosis

medical physics

acute myeloid leukemia

cisplatin

0760

Investigation into the Role of CBL-B in Leukemogenesis and Migration

Badger-Brown, Karla Michelle

15 September 2011

CBL proteins are E3 ubiquitin ligases and adaptor proteins. The mammalian homologs – CBL, CBL-B and CBL-3 show broad tissue expression; accordingly, the CBL proteins play roles in multiple cell types. We have investigated the function of the CBL-B protein in hematopoietic cells and fibroblasts. The causative agent of chronic myeloid leukemia (CML) is BCR-ABL. This oncogenic fusion down-modulates CBL-B protein levels, suggesting that CBL-B regulates either the development or progression of CML. To assess the involvement of CBL-B in CML, bone marrow transduction and transplantation (BMT) studies were performed. Recipients of BCR-ABL-infected CBL-B(-/-) cells succumbed to a CML-like myeloproliferative disease with a longer latency than the wild-type recipients. Peripheral blood white blood cell numbers were reduced, as were splenic weights. Yet despite the reduced leukemic burden, granulocyte numbers were amplified throughout the animals. As well, CBLB(-/-) bone marrow (BM) cells possessed defective BM homing capabilities. From these results we concluded that CBL-B negatively regulates granulopoiesis and that prolonged latency in our CBL-B(-/-) BMT animals was a function of perturbed homing.To develop an in vitro model to study CBL-B function we established mouse embryonic fibroblasts (MEFs) deficient in CBL-B expression. Transduction of the wild-type and CBL-B-deficient MEFs with BCR-ABL did not confer transformation; nevertheless, the role of CBL-B in fibroblasts was evaluated. The CBL-B(-/-) MEFs showed enhanced chemotactic migration toward serum in both Transwell migration and time-lapse video microscopy studies. The biochemical response to serum was extensively evaluated leading to the development of a model. We predict that CBL-B deficiency either: (a) augments GRB2-associated binding protein 2 (GAB2) phosphorylation leading to enhanced extracellular signal-regulated kinase (ERK) and protein kinase B (PKB / Akt) signaling, or (b) alleviates negative control of Vav3 resulting in stimulation of Rho effectors. In either case, our results reveal a negative regulatory role for CBL-B in fibroblast migration. The two studies detailed herein expand our knowledge of CBL-B function. They strongly suggest that CBL-B can modulate granulocyte proliferation and point toward a role for CBL-B in the motility of numerous cell types.

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cancer

myeloproliferative disease

BCR-ABL

CBL-B

fibroblasts

migration

chronic myeloid leukemia

bone marrow transplantation

0992

MR Diffusion Measurements of Apoptotic Changes in Tumour Cells

Fichtner, Nicole Damara

11 July 2013

Monitoring treatment efficacy is a large area of cancer research as it can increase the effectiveness of therapy regimens. Diffusion weighted Magnetic Resonance imaging (DWI), allows assessment of tissue microstructure without exogenous contrast agents. In this thesis, two different DWI techniques were used to acquire data from acute myeloid leukemia cells undergoing apoptosis, and data was fitted to an analytical model of re- stricted diffusion. Results indicated a decrease in average restriction size from 6.4 to 2.7μm, and an increase in the restricted diffusion coefficient from 0.17 to 0.82μm^2/ms in untreated versus treated cells. The free diffusion coefficient was constant indicating changes in restrictions, rather than any intrinsic changes in the intra-cellular or extra- cellular fluid. This combination of techniques has the potential for use in preclinical and clinical settings as it demonstrates that apoptotic changes may be measured consistently.

imaging

magnetic resonance imaging

cancer

diffusion

apoptosis

medical physics

acute myeloid leukemia

cisplatin

0760