Zuzana Nadova scite author profile

Hypericin (Hyp) is a hydrophobic natural photosensitizer that is considered to be a promising molecule for photodynamic treatment of tumor cells and photo-diagnosis of early epithelial cancers. Its hydrophobicity is the main driving force that governs its redistribution process. Low-density lipoproteins (LDL), a natural in vivo carrier of cholesterol present in the vascular system, have been used for targeted transport of Hyp to U87 glioma cells. For low Hyp-LDL ratios (≤10 : 1), the cellular uptake of Hyp is characterized by endocytosis of the [Hyp-LDL] complex, while Hyp alone can enter cells by passive diffusion. Photo-induced cell death and the mitochondrial membrane potential, observed for glioma cells after various times of incubation with the [Hyp-LDL] complex or Hyp alone, were monitored by flow-cytometry analysis using Annexin-V-FITC propidium iodide and DiOC(6)(3) staining. Differences of the results are discussed in view of the respective dynamic subcellular distributions of the drugs that were obtained by co-localization experiments using confocal fluorescence microscopy. In order to give clear evidence of specific intracellular localization and to identify possible Hyp aggregation in cellular organelles, fluorescence resonance energy transfer (FRET) between selected fluorescent organelle probes and Hyp was also assessed. It is shown, that the observed photo-induced cell deaths can be correlated with the sub-cellular distribution of the active fluorescent monomer form of Hyp in lysosomes (as determined from steady-state fluorescence experiments), but that possible aggregation of Hyp in some organelles, as determined from FRET experiments, should be taken into account for interpretation of the real dynamics of the subcellular redistribution. Results of the present study underline the fact that photo-induced cell death processes are strongly influences by dynamics of Hyp subcellular redistribution processes involving monomer-aggregate equilibrium. Such an observation should be taken in consideration for further optimization of Hyp in vivo PDT applications.

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Interaction dynamics of hypericin with low-density lipoproteins and U87-MG cells

Huntošová

Álvarez

Bryndzová

et al. 2010

International Journal of Pharmaceutics

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High Level of Low‐density Lipoprotein Receptors Enhance Hypericin Uptake by U‐87 MG Cells in the Presence of LDL

Kaščáková

Nadova

Mateášik

et al. 2007

Photochem & Photobiology

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The dependence of the uptake of hypericin (Hyp) by human glioma U-87 MG cells on the level of expression of low-density lipoprotein (LDL) receptors has been studied in this work. A special role of the LDL receptor-pathway for Hyp delivery to U-87 MG cells in the presence of LDL was revealed by the substantial increase of Hyp uptake in the situation, when the number of LDL receptors on the cell surface was elevated. Moreover, the colocalization experiments showed the lysosomal localization of Hyp following the uptake and that the concentration of Hyp in these organelles was enhanced in the cells with elevated number of LDL receptors when the incubation medium contained LDL. Both these findings suggest that LDL and LDL receptor-pathway play an important role in the delivery and accumulation of Hyp into the cells.

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Development of a new LDL-based transport system for hydrophobic/amphiphilic drug delivery to cancer cells

Huntošová

Búzová

Petrovajova

et al. 2012

International Journal of Pharmaceutics

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The role of anti-apoptotic protein kinase Cα in response to hypericin photodynamic therapy in U-87 MG cells

Dzurová

Petrovajova

Nadova

et al. 2014

Photodiagnosis and Photodynamic Therapy

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Zuzana Nadova

Cell death response of U87 glioma cells on hypericin photoactivation is mediated by dynamics of hypericin subcellular distribution and its aggregation in cellular organelles

Interaction dynamics of hypericin with low-density lipoproteins and U87-MG cells

High Level of Low‐density Lipoprotein Receptors Enhance Hypericin Uptake by U‐87 MG Cells in the Presence of LDL

Development of a new LDL-based transport system for hydrophobic/amphiphilic drug delivery to cancer cells

The role of anti-apoptotic protein kinase Cα in response to hypericin photodynamic therapy in U-87 MG cells

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