Victoria Blue BO (VBBO) is thought to exert its photocytotoxic effects via free radical generation. Glutathione and related enzymes are associated with the protection of normal tissues against free-radical damage and have also been implicated in multiple drug resistance. It
Photochemistry and photobiology, 71(6), 747-757 (2000-06-17)
The relative contribution, to cell death, of photodynamic damage to respiratory proteins (known targets of photodynamic therapy with many photosensitizers) and other cellular sites was examined. The models were a human ovarian carcinoma cell line 2008, and its mitochondrial DNA-deficient
Journal of chemotherapy (Florence, Italy), 11(1), 61-68 (1999-03-17)
The toxicities and phototoxicities of methylene blue (MB), toluidine blue O (TBO) and Victoria blue BO (VBBO) in a murine mammary tumour cell line (EMT6-S) and a multidrug resistant (MDR) sub-line (EMT6-R) were measured and their efficacy against the resistant
Photochemistry and photobiology, 67(1), 155-164 (1998-04-04)
The cationic photosensitizing triaryl methane dye Victoria Blue BO (VBBO) localizes in mitochondria and causes oxidative damage to this organelle during photodynamic therapy (PDT). Oxidative stresses from other photosensitizers induce a variety of stress proteins. The endoplasmic reticulum (ER)-based, calcium-binding
Photochemistry and photobiology, 58(3), 356-361 (1993-09-01)
Photodynamic induced cytotoxicity by Victoria blue BO (VB-BO), merocyanine 540 (MC540), Nile blue A (NB) and 4-tetrasulfonatophenyl-porphyrin (4-TSPP) has been studied on two human leukemic cell lines: K-562 and TF-1. Cells were incubated with dyes and irradiated with different doses
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