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AuthorBarbara, Bortot
AuthorApollonio, Maura
AuthorBaj, Gabriele
AuthorAndolfi, Laura
AuthorZupin, Luisa
AuthorCrovella, Sergio
Authordi Giosia, Matteo
AuthorCantelli, Andrea
AuthorSaporetti, Roberto
AuthorUlfo, Luca
AuthorPetrosino, Annapaola
AuthorDi Lorenzo, Giovanni
AuthorRomano, Federico
AuthorRicci, Giuseppe
AuthorMongiat, Maurizio
AuthorDanielli, Alberto
AuthorCalvaresi, Matteo
AuthorBiffi, Stefania
Available date2022-01-25T07:56:41Z
Publication Date2022-02-01
Publication NameFree Radical Biology and Medicine
Identifierhttp://dx.doi.org/10.1016/j.freeradbiomed.2021.11.019
CitationBortot, B., Apollonio, M., Baj, G., Andolfi, L., Zupin, L., Crovella, S., di Giosia, M., Cantelli, A., Saporetti, R., Ulfo, L., Petrosino, A., Di Lorenzo, G., Romano, F., Ricci, G., Mongiat, M., Danielli, A., Calvaresi, M., & Biffi, S. (2022). Advanced photodynamic therapy with an engineered M13 phage targeting EGFR: Mitochondrial localization and autophagy induction in ovarian cancer cell lines. Free radical biology & medicine, 179, 242–251. https://doi.org/10.1016/j.freeradbiomed.2021.11.019
ISSN08915849
URIhttps://www.sciencedirect.com/science/article/pii/S0891584921008169
URIhttp://hdl.handle.net/10576/25924
AbstractPhotodynamic therapy (PDT) is a potential synergistic approach to chemotherapy for treating ovarian cancer, the most lethal gynecologic malignancy. Here we used M13 bacteriophage as a targeted vector for the efficient photodynamic killing of SKOV3 and COV362 cells. The M13 phage was refactored (M13r) to display an EGFR binding peptide in its tip that is frequently overexpressed in ovarian cancer. The refactored phage was conjugated with chlorin e6 (Ce6), one of the most widely used photosensitizers (M13r-Ce6). The new platform, upon irradiation, generated ROS by type I mechanism and showed activity in killing SKOV3 and COV362 cells even at concentrations in which Ce6 alone was ineffective. A microscopy analysis demonstrated an enhanced cellular uptake of M13r-Ce6 compared to free Ce6 and its mitochondrial localization. Western blot analysis revealed significant downregulation in the expression of EGFR in cells exposed to M13r-Ce6 after PDT. Following PDT treatment, autophagy induction was supported by an increased expression of LC3II, along with a raised autophagic fluorescent signal, as observed by fluorescence microscopy analysis for autophagosome visualization. As a conclusion we have herein proposed a bacteriophage-based receptor targeted photodynamic therapy for EGFR-positive ovarian cancer.
SponsorThis research was funded by the Ministry of Health “5‰ anno 2016” Grant to IRCSS Burlo Garofolo, P.I. Biffi Stefania, project title: “A preclinical platform from human ovarian cancer cells to investigate potential cisplatin resistance markers.” MDG was supported by a FIRC-AIRC fellowship for Italy (id. 22318). The research leading to these results has received funding from AIRC under MFAG 2019 - ID. 22894 project – P.I. Calvaresi Matteo.
Languageen
PublisherElsevier
SubjectPDT
EGFR
M13 bacteriophage
Ovarian cancer
Autophagy
Mitochondrial localization
TitleAdvanced photodynamic therapy with an engineered M13 phage targeting EGFR: Mitochondrial localization and autophagy induction in ovarian cancer cell lines
TypeArticle
Pagination242-251
Volume Number179
Open Access user License http://creativecommons.org/licenses/by-nc-nd/4.0/
dc.accessType Open Access


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