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Mechanisms of chemoresistance in cancer stem cells. Clin Transl Med 2 , 3 Golebiewska, A. Critical appraisal of the side population assay in stem cell and cancer stem cell research. Cell Stem Cell 8 , — Kondo, T.

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Persistence of a small subpopulation of cancer stem-like cells in the C6 glioma cell line. Tabu, K. A synthetic polymer scaffold reveals the self-maintenance strategies of rat glioma stem cells by organization of the advantageous niche. Stem Cells 34 , — Kokubu, Y.

Unit 5 - 4. Dermatological Conditions

Genes Cells 21 , — Stummer, W. Fluorescence-guided surgery with 5-aminolevulinic acid for resection of malignant glioma: a randomised controlled multicentre phase III trial.

Lancet Oncol 7 , — Agostinis, P. Photodynamic therapy of cancer: an update. CA Cancer J Clin 61 , — Nokes, B. Aminolevulinic acid ALA : photodynamic detection and potential therapeutic applications. J Surg Res , — Pogue, B. Review of neurosurgical fluorescence imaging methodologies. Ishizuka, M. Novel development of 5-aminolevurinic acid ALA in cancer diagnoses and therapy. Int Immunopharmacol 11 , — Kanick, S. J Biomed Opt 19 , Neurosurgery 74 , — Robey, R. ABCG2-mediated transport of photosensitizers: potential impact on photodynamic therapy.

Atlas and Handbook

Cancer Biol Ther 4 , — Ishikawa, T. Transporter-mediated drug interaction strategy for 5-aminolevulinic acid ALA -based photodynamic diagnosis of malignant brain tumor: molecular design of ABCG2 inhibitors. Pharmaceutics 3 , — Lin, Y. FEBS Lett , — Palasuberniam, P. ABCG2 transporter inhibitor restores the sensitivity of triple negative breast cancer cells to aminolevulinic acid-mediated photodynamic therapy. Sci Rep 18 , Sinha, A. Methotrexate used in combination with aminolaevulinic acid for photodynamic killing of prostate cancer cells. Br J Cancer 95 , — Anand, S. Vitamin D3 enhances the apoptotic response of epithelial tumors to aminolevulinate-based photodynamic therapy.

Cancer Res 71 , — Richardson, D. The effect of the iron III chelator, desferrioxamine, on iron and transferrin uptake by the human malignant melanoma cell. Cancer Res 54 , — Uehlinger, P. On the role of iron and one of its chelating agents in the production of protoporphyrin IX generated by 5-aminolevulinic acid and its hexyl ester derivative tested on an epidermal equivalent of human skin. Photochem Photobiol 82 , — Miyake, M. Photochem Photobiol 85 , — Valdes, P.

Deferoxamine iron chelation increases delta-aminolevulinic acid induced protoporphyrin IX in xenograft glioma model.


Photochem Photobiol 86 , — Piccirillo, S. Fluorescence-guided surgical sampling of glioblastoma identifies phenotypically distinct tumour-initiating cell populations in the tumour mass and margin. Br J Cancer , — Rampazzo, E. Phenotypic and functional characterization of glioblastoma cancer stem cells identified through 5-aminolevulinic acid-assisted surgery. J Neurooncol , — DaCosta, R. Molecular fluorescence excitation-emission matrices relevant to tissue spectroscopy. Photochem Photobiol 78 , — Matsumoto, K. Effects of plasma membrane ABCB6 on 5-aminolevulinic acid ALA -induced porphyrin accumulation in vitro : tumor cell response to hypoxia.

Photodiagnosis Photodyn Ther 12 , 45—51 Busch, T. Multidrug resistance in photodynamic therapy. Liu, W. The tyrosine kinase inhibitor imatinib mesylate enhances the efficacy of photodynamic therapy by inhibiting ABCG2. Clin Cancer Res 13 , — Adv Pharmacol Sci , Hagiya, Y. Photodiagnosis Photodyn Ther 9 , — Otterbein, L. Heme oxygenase unleashing the protective properties of heme. Trends Immunol 24 , — Zutz, A. Mitochondrial ABC proteins in health and disease. Biochim Biophys Acta , — Matsson, P. Pharm Res 26 , — Poggiali, E. An update on iron chelation therapy. Blood Transfus 10 , — Bring, P.

Ford, J. Iron overload disorders: treatment options for patients refractory to or intolerant of phlebotomy. Pharmacotherapy 28 , — Cappellini, M. Oral iron chelators. Annu Rev Med 60 , 25—38 Teng, L.

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Silencing of ferrochelatase enhances 5-aminolevulinic acid-based fluorescence and photodynamic therapy efficacy. Zhao, S. Ann Surg Oncol 20 , — Kim, J.

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Mechanism for enhanced 5-aminolevulinic acid fluorescence in isocitrate dehydrogenase 1 mutant malignant gliomas. Oncotarget 6 , — Juzenas, P. Deferoxamine photosensitizes cancer cells in vitro. Biochem Biophys Res Commun , — Uekusa, M.

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  4. Uptake and kinetics of 5-aminolevulinic acid in oral squamous cell carcinoma. Int J Oral Maxillofac Surg 39 , — Yang, J. Desferrioxamine shows different potentials for enhancing 5-aminolaevulinic acid-based photodynamic therapy in several cutaneous cell lines. Lasers Med Sci 25 , — Choudry, K. The effect of an iron chelating agent on protoporphyrin IX levels and phototoxicity in topical 5-aminolaevulinic acid photodynamic therapy.

    Br J Dermatol , — Chen, X. Calcitriol enhances 5-aminolevulinic acid-induced fluorescence and the effect of photodynamic therapy in human glioma. Acta Oncol 53 , — Benda, P. Morphological and immunochemical studies of rat glial tumors and clonal strains propagated in culture. J Neurosurg 34 , — Hayashi, M. The effect of iron ion on the specificity of photodynamic therapy with 5-aminolevulinic acid. PLoS One 10 , e Schonberg, D. Preferential iron trafficking characterizes glioblastoma stem-like cells.

    Cancer Cell 28 , — Lieu, P. The roles of iron in health and disease. Mol Aspects Med 22 , 1—87 Nowis, D. Heme oxygenase-1 protects tumor cells against photodynamic therapy-mediated cytotoxicity.

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    Oncogene 25 , — Frank, J. Inhibition of heme oxygenase-1 increases responsiveness of melanoma cells to ALA-based photodynamic therapy. Int J Oncol 31 , — Porphyrin and nonporphyrin photosensitizers in oncology: preclinical and clinical advances in photodynamic therapy. Lathia, J. Deadly teamwork: neural cancer stem cells and the tumor microenvironment. Download references.

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