Comparative study of phototoxicity of protoporphyrin IX synthetic and extracted from ssp Rattus novergicus albinus rats toward murine melanoma cells

Abstract: Protoporphyrin IX (PpIX) is a precursor of heme synthesis and is known to be an active photosensitizer and precursor of photosensitizers applied in photodynamic therapy (PDT) and photodynamic diagnostics (PDD). On irradiation with visible light, PpIX undergoes phototransformation, producing photoproducts which may also be phototoxic and increase its efficacy. The mechanism of PpIX phototransformation depends on environmental characteristics and can be different in vitro and in vivo. In this paper, we present a… Show more

“…PpIX extracted from the Harderian glands of ssp Rattus norvegicus albinus rats (PpIX endogenous, PpIXe) is an adequate model of the native type ( 11 ). We have demonstrated that PpIXe possesses photodynamic activity toward Harderian gland tissue ( 12 ) and murine B16F-10 melanoma cells ( 13 ). Moreover, its phototoxicity is 10 times higher and its rate of internalization into the cell is 8-fold higher compared with the synthetic one ( 13 ).…”

“…We have demonstrated that PpIXe possesses photodynamic activity toward Harderian gland tissue ( 12 ) and murine B16F-10 melanoma cells ( 13 ). Moreover, its phototoxicity is 10 times higher and its rate of internalization into the cell is 8-fold higher compared with the synthetic one ( 13 ). This makes PpIXe not only an adequate model but also a promising PS for PDT and a fluorescence probe for FD.…”

Effects of serum albumin on the photophysical characteristics of synthetic and endogenous protoporphyrin IX

“…PpIX extracted from the Harderian glands of ssp Rattus norvegicus albinus rats (PpIX endogenous, PpIXe) is an adequate model of the native type ( 11 ). We have demonstrated that PpIXe possesses photodynamic activity toward Harderian gland tissue ( 12 ) and murine B16F-10 melanoma cells ( 13 ). Moreover, its phototoxicity is 10 times higher and its rate of internalization into the cell is 8-fold higher compared with the synthetic one ( 13 ).…”

“…We have demonstrated that PpIXe possesses photodynamic activity toward Harderian gland tissue ( 12 ) and murine B16F-10 melanoma cells ( 13 ). Moreover, its phototoxicity is 10 times higher and its rate of internalization into the cell is 8-fold higher compared with the synthetic one ( 13 ). This makes PpIXe not only an adequate model but also a promising PS for PDT and a fluorescence probe for FD.…”

Effects of serum albumin on the photophysical characteristics of synthetic and endogenous protoporphyrin IX

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Ph-Responsive Photinia Glabra –Zinc Oxide–Protoporphyrin IX Nanoconjugates With Enhanced Cellular Uptake for Photodynamic Therapy Towards Cancer Cells