Evaluation of the effects of newly synthesized metallophthalocyanines on breast cancer cell lines with photodynamic therapy
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Date
2022Author
Bostancı,Hayrani ErenBilgiçli, Ahmet T.
Güzel,Emre
Günsel,Armağan
Hepokur, Ceylan
Çimen,Behzat
Yarasir,M. Nilüfer
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In this study, the new phthalonitrile derivative 3-(4-(3-oxobutyl)phenoxy)phthalonitrile (1) and its non peripheral metallophthalocyanine derivatives [zinc (2), copper (3), cobalt (4), manganese (5), gallium (6),
and indium (7)] were synthesized. The newly synthesized phthalocyanines were characterized by standard
spectroscopic methods, such as FT-IR, 1
H NMR, UV-Vis, fluorescence spectroscopies, and MALDI-TOF
spectrometry. Aggregation behaviors of the novel phthalocyanines were investigated by UV-Vis spec troscopy. The effect of pH change on the electronic and emission spectra of the newly synthesized
phthalocyanine derivatives was studied in THF media. The electronic spectra of the new zinc (2), copper
(3), and cobalt (4) phthalocyanines exhibited bathochromic shifts in acidic pH values due to the presence
of monoprotonated forms. Surprisingly, the same effect was not observed for manganese (5) and indium
(7) phthalocyanines. On the other hand, gallium (6) showed a slight red-shifted band with the addition of
HCl to the medium. Also, it was determined that the synthesized zinc (2) and gallium (6) phthalocyanines
had a selective phototoxic effect on the MCF-7 breast cancer cell line compared to the MCF-10A healthy
breast cell line. The IC50 values of zinc (2) and gallium (6) phthalocyanines were determined for MCF-7
and MCF-10A cell lines. The IC50 values of MCF-7 for compounds 2 and 6 were found to be 1.721 ±
0.4 µg mL−1 and 7.406 ± 0.32 µg mL−1
, respectively. The IC50 values of MCF-10A for phthalocyanines 2
and 6 were found to be 48.90 ± 0.69 µg mL−1 and 14.77 ± 1.09 µg mL−1
, respectively. In the LDH (lactate
dehydrogenase)-ELISA study, the LDH levels that formed on a cellular basis after the application were
measured, and it was observed that the cells were directed towards apoptosis. In addition, it was observed
that cancer cells underwent more apoptosis than healthy cells as a result of this application with cell cycle and dead cell kits performed by flow cytometry. This research shows that non-peripheral substi tuted gallium and zinc phthalocyanine derivatives (2 and 6) can be suitable photosensitizers for the
photodynamic treatment of breast cancers.