Two-photon spectroscopic behaviors and photodynamic effect on the BEL-7402 cancer cells of the new chlorophyll photosensitizer

The spectroscopic properties of a new chlorophyll derivate photosensitizer (CDP) are studied under the excitation wavelengths at 800 and 400 nm using femtosecond pulses from a Ti: sapphire laser. The damaging effect of CDP on the BEL-7402 cancer cells is also investigated upon two-photon illuminatio...

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Veröffentlicht in:	Science China. Chemistry 2008-06, Vol.51 (6), p.529-538
Hauptverfasser:	Zhao, PeiDe, Chen, Ping, Tang, GuoQing, Liu, JinWei, Lin, Lie, Guo, Peng, Yu, Qing, Yao, JianZhong, Ma, DongMing, Zhang, GuiLan, Chen, WenJu
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Schlagworte:	Absorption cross sections Cancer Chemistry Chemistry and Materials Science Chemistry/Food Science Chlorophyll Excitation Femtosecond pulses Fluorescence Laser damage Photon absorption Photons Sapphire Spectra Tetrahydrofuran
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container_title	Science China. Chemistry
container_volume	51
creator	Zhao, PeiDe Chen, Ping Tang, GuoQing Liu, JinWei Lin, Lie Guo, Peng Yu, Qing Yao, JianZhong Ma, DongMing Zhang, GuiLan Chen, WenJu
description	The spectroscopic properties of a new chlorophyll derivate photosensitizer (CDP) are studied under the excitation wavelengths at 800 and 400 nm using femtosecond pulses from a Ti: sapphire laser. The damaging effect of CDP on the BEL-7402 cancer cells is also investigated upon two-photon illumination at 800 nm. The normalized fluorescence spectra of CDP in tetrahydrofuran (THF) show that two-photon and one-photon spectra have the same distributions and the same emission bands (675 nm). The lifetimes of two-and one-photon induced fluorescence of this molecule are of the order of 5.0 ns. By comparing the data it is shown that there is some difference between the two lifetimes, but the difference is less than one nanosecond. The two-photon absorption cross section of the molecule is also measured at 800 nm and estimated as about σ ′ 2 ≈ 31.5×10 −50 cm 4 ·s·photon −1 . The results of two-photon photodynamic therapy (TPPDT) tests show that CDP can kill all of the tested cancer cells according to the usual Eosine assessment. Our results indicate that the two-photon-induced photophysical, photo-chemical and photosensitizing processes of CDP may be basically similar to those of one-photon excitation. These behaviors of the sample suggest that one may find other possible methods to estimate some photosensitizers’ effects in details such as their distribution in cells and the reactive targets of the sub-cellular parts of some tumor cells via two-photon excitation techniques.
doi_str_mv	10.1007/s11426-008-0046-z
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The damaging effect of CDP on the BEL-7402 cancer cells is also investigated upon two-photon illumination at 800 nm. The normalized fluorescence spectra of CDP in tetrahydrofuran (THF) show that two-photon and one-photon spectra have the same distributions and the same emission bands (675 nm). The lifetimes of two-and one-photon induced fluorescence of this molecule are of the order of 5.0 ns. By comparing the data it is shown that there is some difference between the two lifetimes, but the difference is less than one nanosecond. The two-photon absorption cross section of the molecule is also measured at 800 nm and estimated as about σ ′ 2 ≈ 31.5×10 −50 cm 4 ·s·photon −1 . The results of two-photon photodynamic therapy (TPPDT) tests show that CDP can kill all of the tested cancer cells according to the usual Eosine assessment. Our results indicate that the two-photon-induced photophysical, photo-chemical and photosensitizing processes of CDP may be basically similar to those of one-photon excitation. 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Chemistry</title><addtitle>Sci. China Ser. B-Chem</addtitle><description>The spectroscopic properties of a new chlorophyll derivate photosensitizer (CDP) are studied under the excitation wavelengths at 800 and 400 nm using femtosecond pulses from a Ti: sapphire laser. The damaging effect of CDP on the BEL-7402 cancer cells is also investigated upon two-photon illumination at 800 nm. The normalized fluorescence spectra of CDP in tetrahydrofuran (THF) show that two-photon and one-photon spectra have the same distributions and the same emission bands (675 nm). The lifetimes of two-and one-photon induced fluorescence of this molecule are of the order of 5.0 ns. By comparing the data it is shown that there is some difference between the two lifetimes, but the difference is less than one nanosecond. The two-photon absorption cross section of the molecule is also measured at 800 nm and estimated as about σ ′ 2 ≈ 31.5×10 −50 cm 4 ·s·photon −1 . 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B-Chem</stitle><date>2008-06-01</date><risdate>2008</risdate><volume>51</volume><issue>6</issue><spage>529</spage><epage>538</epage><pages>529-538</pages><issn>1006-9291</issn><issn>1674-7291</issn><eissn>1862-2771</eissn><eissn>1869-1870</eissn><abstract>The spectroscopic properties of a new chlorophyll derivate photosensitizer (CDP) are studied under the excitation wavelengths at 800 and 400 nm using femtosecond pulses from a Ti: sapphire laser. The damaging effect of CDP on the BEL-7402 cancer cells is also investigated upon two-photon illumination at 800 nm. The normalized fluorescence spectra of CDP in tetrahydrofuran (THF) show that two-photon and one-photon spectra have the same distributions and the same emission bands (675 nm). The lifetimes of two-and one-photon induced fluorescence of this molecule are of the order of 5.0 ns. By comparing the data it is shown that there is some difference between the two lifetimes, but the difference is less than one nanosecond. The two-photon absorption cross section of the molecule is also measured at 800 nm and estimated as about σ ′ 2 ≈ 31.5×10 −50 cm 4 ·s·photon −1 . The results of two-photon photodynamic therapy (TPPDT) tests show that CDP can kill all of the tested cancer cells according to the usual Eosine assessment. Our results indicate that the two-photon-induced photophysical, photo-chemical and photosensitizing processes of CDP may be basically similar to those of one-photon excitation. These behaviors of the sample suggest that one may find other possible methods to estimate some photosensitizers’ effects in details such as their distribution in cells and the reactive targets of the sub-cellular parts of some tumor cells via two-photon excitation techniques.</abstract><cop>Heidelberg</cop><pub>SP Science in China Press</pub><doi>10.1007/s11426-008-0046-z</doi><tpages>10</tpages></addata></record>
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subjects	Absorption cross sections Cancer Chemistry Chemistry and Materials Science Chemistry/Food Science Chlorophyll Excitation Femtosecond pulses Fluorescence Laser damage Photon absorption Photons Sapphire Spectra Tetrahydrofuran
title	Two-photon spectroscopic behaviors and photodynamic effect on the BEL-7402 cancer cells of the new chlorophyll photosensitizer
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