Critical role of mitochondrial reactive oxygen species formation in visible laser irradiation-induced apoptosis in rat brain astrocytes (RBA-1).

[1]  D. Kessel,et al.  Evidence that bcl-2 is the Target of Three Photosensitizers that Induce a Rapid Apoptotic Response¶ , 2001, Photochemistry and photobiology.

[2]  Xu Luo,et al.  Endonuclease G is an apoptotic DNase when released from mitochondria , 2001, Nature.

[3]  A. Oseroff,et al.  Mitochondria-based photodynamic anti-cancer therapy. , 2001, Advanced drug delivery reviews.

[4]  A E Vercesi,et al.  Mitochondrial permeability transition and oxidative stress , 2001, FEBS letters.

[5]  S. Cuzzocrea,et al.  Antioxidant therapy: a new pharmacological approach in shock, inflammation, and ischemia/reperfusion injury. , 2001, Pharmacological reviews.

[6]  G. Kroemer,et al.  Apoptosis induction by the photosensitizer verteporfin: identification of mitochondrial adenine nucleotide translocator as a critical target. , 2001, Cancer research.

[7]  A. Azzariti,et al.  Cytochrome c Is Released from Mitochondria in a Reactive Oxygen Species (ROS)-dependent Fashion and Can Operate as a ROS Scavenger and as a Respiratory Substrate in Cerebellar Neurons Undergoing Excitotoxic Death* , 2000, The Journal of Biological Chemistry.

[8]  S. Paddock Principles and practices of laser scanning confocal microscopy , 2000, Molecular biotechnology.

[9]  Xiaodong Wang,et al.  Smac, a Mitochondrial Protein that Promotes Cytochrome c–Dependent Caspase Activation by Eliminating IAP Inhibition , 2000, Cell.

[10]  G. Kroemer,et al.  Mitochondrion as a novel target of anticancer chemotherapy. , 2000, Journal of the National Cancer Institute.

[11]  E. Baumgart,et al.  Current Cytochemical Techniques for the Investigation of Peroxisomes: A Review , 1999, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[12]  G. Kroemer,et al.  Mitochondrial control of apoptosis: an overview. , 1999, Biochemical Society symposium.

[13]  D. Williams,et al.  Chloromethyl-X-rosamine (MitoTracker Red) photosensitises mitochondria and induces apoptosis in intact human cells. , 1999, Journal of cell science.

[14]  Timothy A. Skimina,et al.  Activation of flavin-containing oxidases underlies light-induced production of H2O2 in mammalian cells. , 1999, Proceedings of the National Academy of Sciences of the United States of America.

[15]  Jianjie Ma,et al.  Mitochondrial Depolarization Accompanies Cytochrome cRelease During Apoptosis in PC6 Cells* , 1999, The Journal of Biological Chemistry.

[16]  A. Vercesi,et al.  Mitochondrial damage induced by conditions of oxidative stress. , 1999, Free radical biology & medicine.

[17]  S. Chakraborti,et al.  Oxidant, mitochondria and calcium: an overview. , 1999, Cellular Signalling.

[18]  R. Reiter Oxidative damage in the central nervous system: protection by melatonin , 1998, Progress in Neurobiology.

[19]  Dean P. Jones,et al.  Superoxide in Apoptosis , 1998, The Journal of Biological Chemistry.

[20]  G. Kroemer,et al.  The Permeability Transition Pore Complex: A Target for Apoptosis Regulation by Caspases and Bcl-2–related Proteins , 1998, The Journal of experimental medicine.

[21]  T. Peng,et al.  Visualization of NMDA Receptor-Induced Mitochondrial Calcium Accumulation in Striatal Neurons , 1998, Experimental Neurology.

[22]  K. Bhalla,et al.  Overexpression of Bcl-X(L) inhibits Ara-C-induced mitochondrial loss of cytochrome c and other perturbations that activate the molecular cascade of apoptosis. , 1997, Cancer research.

[23]  D. Hedley,et al.  Relationships between the mitochondrial permeability transition and oxidative stress during ara-C toxicity. , 1997, Cancer research.

[24]  Guido Kroemer,et al.  The proto-oncogene Bcl-2 and its role in regulating apoptosis , 1997, Nature Medicine.

[25]  Dean P. Jones,et al.  Prevention of Apoptosis by Bcl-2: Release of Cytochrome c from Mitochondria Blocked , 1997, Science.

[26]  R. Saxton,et al.  The concept of laser phototherapy. , 1996, Otolaryngologic clinics of North America.

[27]  T. Peng,et al.  Histamine induces oscillations of mitochondrial free Ca2+ concentration in single cultured rat brain astrocytes. , 1996, The Journal of physiology.

[28]  M. Poot,et al.  Analysis of mitochondrial morphology and function with novel fixable fluorescent stains. , 1996, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[29]  A H Kaye,et al.  Photodynamic therapy of brain tumors. , 1996, Seminars in surgical oncology.

[30]  P. Bernardi The permeability transition pore. Control points of a cyclosporin A-sensitive mitochondrial channel involved in cell death. , 1996, Biochimica et biophysica acta.

[31]  M. Wagner,et al.  Phototoxicity of argon laser irradiation on biofilms of Porphyromonas and Prevotella species. , 1996, Journal of photochemistry and photobiology. B, Biology.

[32]  P Baas,et al.  Photodynamic therapy: a promising new modality for the treatment of cancer. , 1996, Journal of photochemistry and photobiology. B, Biology.

[33]  M. Castedo,et al.  Mitochondrial control of nuclear apoptosis , 1996, Journal of Experimental Medicine.

[34]  M. Zoratti,et al.  The mitochondrial permeability transition. , 1995, Biochimica et biophysica acta.

[35]  C. Thompson,et al.  Apoptosis in the pathogenesis and treatment of disease , 1995, Science.

[36]  J. Robinson,et al.  Intracellular hydrogen peroxide and superoxide anion detection in endothelial cells , 1994, Journal of leukocyte biology.

[37]  H. Ischiropoulos,et al.  Evaluation of 2',7'-dichlorofluorescin and dihydrorhodamine 123 as fluorescent probes for intracellular H2O2 in cultured endothelial cells. , 1993, Archives of biochemistry and biophysics.

[38]  H. Ischiropoulos,et al.  Evaluation of the probe 2',7'-dichlorofluorescin as an indicator of reactive oxygen species formation and oxidative stress. , 1992, Chemical research in toxicology.

[39]  R Lubart,et al.  A possible explanation of laser-induced stimulation and damage of cell cultures. , 1991, Journal of photochemistry and photobiology. B, Biology.

[40]  M. Peak,et al.  REPAIR OF NEAR‐VISIBLE‐ and BLUE‐LIGHT‐INDUCED DNA SINGLE‐STRAND BREAKS BY THE CHO CELL LINES AA8 and EM9 , 1991, Photochemistry and photobiology.

[41]  M. Lohmann‐Matthes,et al.  A fast and easy method to determine the production of reactive oxygen intermediates by human and murine phagocytes using dihydrorhodamine 123. , 1990, Journal of immunological methods.

[42]  E. Huberman,et al.  Mutagenesis and cytotoxicity in human epithelial cells by far- and near-ultraviolet radiations: action spectra. , 1987, Radiation research.

[43]  J. Swanson,et al.  Tubular lysosome morphology and distribution within macrophages depend on the integrity of cytoplasmic microtubules. , 1987, Proceedings of the National Academy of Sciences of the United States of America.

[44]  R. Tyrrell,et al.  LETHAL ACTION OF ULTRAVIOLET AND VISIBLE (BLUE‐VIOLET) RADIATIONS AT DEFINED WAVELENGTHS ON HUMAN LYMPHOBLASTOID CELLS: ACTION SPECTRA AND INTERACTION SITES , 1984, Photochemistry and photobiology.

[45]  M L Walsh,et al.  Localization of mitochondria in living cells with rhodamine 123. , 1980, Proceedings of the National Academy of Sciences of the United States of America.

[46]  R. Parshad,et al.  EFFECT OF INTENSITY AND WAVELENGTH OF FLUORESCENT LIGHT ON CHROMOSOME DAMAGE IN CULTURED MOUSE CELLS , 1979, Photochemistry and photobiology.

[47]  M. O. Bradley,et al.  Mutagenicity and toxicity of visible fluorescent light to cultured mammalian cells , 1977, Nature.

[48]  R. J. Wang,et al.  LETHAL EFFECT OF “DAYLIGHT” FLUORESCENT LIGHT ON HUMAN CELLS IN TISSUE‐CULTURE MEDIUM , 1975, Photochemistry and photobiology.

[49]  D. Kessel,et al.  Photodynamic therapy: A mitochondrial inducer of apoptosis , 1999, Cell Death and Differentiation.

[50]  A. Watson,et al.  Commitment to cell death measured by loss of clonogenicity is separable from the appearance of apoptotic markers , 1998, Cell Death and Differentiation.