TY - JOUR
T1 - Hypericin-Apomyoglobin
T2 - An Enhanced Photosensitizer Complex for the Treatment of Tumor Cells
AU - Bianchini, Paolo
AU - Cozzolino, Marco
AU - Oneto, Michele
AU - Pesce, Luca
AU - Pennacchietti, Francesca
AU - Tognolini, Massimiliano
AU - Giorgio, Carmine
AU - Nonell, Santi
AU - Cavanna, Luigi
AU - Delcanale, Pietro
AU - Abbruzzetti, Stefania
AU - Diaspro, Alberto
AU - Viappiani, Cristiano
N1 - Publisher Copyright:
© 2019 American Chemical Society.
PY - 2019/5/13
Y1 - 2019/5/13
N2 - Bioavailability of photosensitizers for cancer photodynamic therapy is often hampered by their low solubility in water. Here, we overcome this issue by using the water-soluble protein apomyoglobin (apoMb) as a carrier for the photosensitizer hypericin (Hyp). The Hyp-apoMb complex is quickly uptaken by HeLa and PC3 cells at submicromolar concentrations. Fluorescence emission of Hyp-apoMb is exploited to localize the cellular distribution of the photosensitizer. The plasma membrane is rapidly and efficiently loaded, and fluorescence is observed in the cytoplasm only at later times and to a lesser extent. Comparison with cells loaded with Hyp alone demonstrates that the uptake of the photosensitizer without the protein carrier is a slower, less efficient process, that involves the whole cell structure without preferential accumulation at the plasma membrane. Cell viability assays demonstrate that the Hyp-apoMb exhibits superior performance over Hyp. Similar results were obtained using tumor spheroids as three-dimensional cell culture models.
AB - Bioavailability of photosensitizers for cancer photodynamic therapy is often hampered by their low solubility in water. Here, we overcome this issue by using the water-soluble protein apomyoglobin (apoMb) as a carrier for the photosensitizer hypericin (Hyp). The Hyp-apoMb complex is quickly uptaken by HeLa and PC3 cells at submicromolar concentrations. Fluorescence emission of Hyp-apoMb is exploited to localize the cellular distribution of the photosensitizer. The plasma membrane is rapidly and efficiently loaded, and fluorescence is observed in the cytoplasm only at later times and to a lesser extent. Comparison with cells loaded with Hyp alone demonstrates that the uptake of the photosensitizer without the protein carrier is a slower, less efficient process, that involves the whole cell structure without preferential accumulation at the plasma membrane. Cell viability assays demonstrate that the Hyp-apoMb exhibits superior performance over Hyp. Similar results were obtained using tumor spheroids as three-dimensional cell culture models.
KW - Human serum-albumin
KW - Photodynamic therapy
KW - In-vitro
KW - Fluorescence microscopy
KW - Cancer
KW - Spheroids
KW - Accumulation
KW - Hypocrellin
KW - Mechanism
KW - Proteins
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UR - https://www.webofscience.com/api/gateway?GWVersion=2&SrcApp=pure_univeritat_ramon_llull&SrcAuth=WosAPI&KeyUT=WOS:000468120800019&DestLinkType=FullRecord&DestApp=WOS_CPL
U2 - 10.1021/acs.biomac.9b00222
DO - 10.1021/acs.biomac.9b00222
M3 - Article
C2 - 30995399
AN - SCOPUS:85065483682
SN - 1525-7797
VL - 20
SP - 2024
EP - 2033
JO - Biomacromolecules
JF - Biomacromolecules
IS - 5
ER -