Extraspecific manifestation of nanoheater's position effect on distinctive cellular photothermal responses
Subcellular localization of nanoparticles plays critical roles in precision medicine that can facilitate an in-depth understanding of disease etiology and achieve accurate theranostic regulation via responding to the aiding stimuli. The photothermal effect is an extensively employed strategy that co...
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sg-ntu-dr.10356-1551682022-02-11T05:21:22Z Extraspecific manifestation of nanoheater's position effect on distinctive cellular photothermal responses Cong, Thang Do Wang, Zhimin Hu, Ming Han, Qinyu Xing, Bengang School of Physical and Mathematical Sciences Science::Chemistry::Biochemistry Upconversion Nanoparticles Photothermal Subcellular localization of nanoparticles plays critical roles in precision medicine that can facilitate an in-depth understanding of disease etiology and achieve accurate theranostic regulation via responding to the aiding stimuli. The photothermal effect is an extensively employed strategy that converts light into heat stimulation to induce localized disease ablation. Despite diverse manipulations that have been investigated in photothermal nanotheranostics, influences of nanoheaters' subcellular distribution and their molecular mechanism on cellular heat response remain elusive. Herein, we disclose the biological basis of distinguishable thermal effects at subcellular resolution by localizing photothermal upconversion nanoparticles into specific locations of cell compartments. Upon 808 nm light excitation, the lysosomal cellular uptake initialized by poly(ethylenimine)-modified nanoheaters promoted mitochondria apoptosis through the activation of Bid protein, whereas the cell surface nanoheaters anchored via metabolic glycol biosynthesis triggered necrosis by direct perturbation of the membrane structure. Intriguingly, these two different thermolyses revealed similar levels of heat shock protein expression in live cells. This study stipulates insights underlying the different subcellular positions of nanoparticles for the selective thermal response, which provides valuable perspectives on optimal precision nanomedicine. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Nanyang Technological University National Research Foundation (NRF) B.X. acknowledges the financial support from Tier 1 RG5/18 (S), MOE 2017-T2-2-110, A*Star SERC A1983c0028 (M4070319), National Natural Science Foundation of China (NSFC) (No. 51929201), and Merlion 2017 program (M408110000, M4082392.110.500000) in Nanyang Technological University (NTU). 2022-02-11T05:21:22Z 2022-02-11T05:21:22Z 2020 Journal Article Cong, T. D., Wang, Z., Hu, M., Han, Q. & Xing, B. (2020). Extraspecific manifestation of nanoheater's position effect on distinctive cellular photothermal responses. ACS Nano, 14(5), 5836-5844. https://dx.doi.org/10.1021/acsnano.0c00951 1936-0851 https://hdl.handle.net/10356/155168 10.1021/acsnano.0c00951 32348106 2-s2.0-85085531472 5 14 5836 5844 en MOE 2017-T2-2-110 M4070319 M408110000 M4082392.110.500000 Tier 1 RG5/18 (S) ACS nano © 2020 American Chemical Society. All rights reserved. |
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Science::Chemistry::Biochemistry Upconversion Nanoparticles Photothermal Cong, Thang Do Wang, Zhimin Hu, Ming Han, Qinyu Xing, Bengang Extraspecific manifestation of nanoheater's position effect on distinctive cellular photothermal responses |
| description |
Subcellular localization of nanoparticles plays critical roles in precision medicine that can facilitate an in-depth understanding of disease etiology and achieve accurate theranostic regulation via responding to the aiding stimuli. The photothermal effect is an extensively employed strategy that converts light into heat stimulation to induce localized disease ablation. Despite diverse manipulations that have been investigated in photothermal nanotheranostics, influences of nanoheaters' subcellular distribution and their molecular mechanism on cellular heat response remain elusive. Herein, we disclose the biological basis of distinguishable thermal effects at subcellular resolution by localizing photothermal upconversion nanoparticles into specific locations of cell compartments. Upon 808 nm light excitation, the lysosomal cellular uptake initialized by poly(ethylenimine)-modified nanoheaters promoted mitochondria apoptosis through the activation of Bid protein, whereas the cell surface nanoheaters anchored via metabolic glycol biosynthesis triggered necrosis by direct perturbation of the membrane structure. Intriguingly, these two different thermolyses revealed similar levels of heat shock protein expression in live cells. This study stipulates insights underlying the different subcellular positions of nanoparticles for the selective thermal response, which provides valuable perspectives on optimal precision nanomedicine. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Cong, Thang Do Wang, Zhimin Hu, Ming Han, Qinyu Xing, Bengang |
| format |
Article |
| author |
Cong, Thang Do Wang, Zhimin Hu, Ming Han, Qinyu Xing, Bengang |
| author_sort |
Cong, Thang Do |
| title |
Extraspecific manifestation of nanoheater's position effect on distinctive cellular photothermal responses |
| title_short |
Extraspecific manifestation of nanoheater's position effect on distinctive cellular photothermal responses |
| title_full |
Extraspecific manifestation of nanoheater's position effect on distinctive cellular photothermal responses |
| title_fullStr |
Extraspecific manifestation of nanoheater's position effect on distinctive cellular photothermal responses |
| title_full_unstemmed |
Extraspecific manifestation of nanoheater's position effect on distinctive cellular photothermal responses |
| title_sort |
extraspecific manifestation of nanoheater's position effect on distinctive cellular photothermal responses |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/155168 |
| _version_ |
1724626853466996736 |