Dual Drug Conjugated Nanoparticle for Simultaneous Targeting of Mitochondria and Nucleus in Cancer Cells

Effective targeting of mitochondria has emerged as an alternative strategy in cancer chemotherapy. However, considering mitochondria’s crucial role in cellular energetics, metabolism and signaling, targeting mitochondria with small molecules would lead to severe side effects in cancer patients. More...

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Bibliographic Details
Published in:ACS applied materials & interfaces 2015-04, Vol.7 (14), p.7584-7598
Main Authors: Mallick, Abhik, More, Piyush, Ghosh, Sougata, Chippalkatti, Rohan, Chopade, Balu A, Lahiri, Mayurika, Basu, Sudipta
Format: Article
Language:English
Subjects:
Antineoplastic Combined Chemotherapy Protocols - administration & dosage
Antineoplastic Combined Chemotherapy Protocols - chemistry
Cell Nucleus - drug effects
Cell Survival - drug effects
Cisplatin - administration & dosage
Doxorubicin - administration & dosage
HeLa Cells
Humans
Mitochondria - drug effects
Nanocapsules - administration & dosage
Nanocapsules - chemistry
Nanocapsules - ultrastructure
Nanoconjugates - administration & dosage
Nanoconjugates - chemistry
Nanoconjugates - ultrastructure
Paclitaxel - administration & dosage
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Summary:Effective targeting of mitochondria has emerged as an alternative strategy in cancer chemotherapy. However, considering mitochondria’s crucial role in cellular energetics, metabolism and signaling, targeting mitochondria with small molecules would lead to severe side effects in cancer patients. Moreover, mitochondrial functions are highly dependent on other cellular organelles like nucleus. Hence, simultaneous targeting of mitochondria and nucleus could lead to more effective anticancer strategy. To achieve this goal, we have developed sub 200 nm particles from dual drug conjugates derived from direct tethering of mitochondria damaging drug (α- tocopheryl succinate) and nucleus damaging drugs (cisplatin, doxorubicin and paclitaxel). These dual drug conjugated nanoparticles were internalized into the acidic lysosomal compartments of the HeLa cervical cancer cells through endocytosis and induced apoptosis through cell cycle arrest. These nanoparticles damaged mitochondrial morphology and triggered the release of cytochrome c. Furthermore, these nanoparticles target nucleus to induce DNA damage, fragment the nuclear morphology and damage the cytoskeletal protein tubulin. Therefore, these dual drug conjugated nanoparticles can be successfully used as a platform technology for simultaneous targeting of multiple subcellular organelles in cancer cells to improve the therapeutic efficacy of the free drugs.
ISSN:1944-8244
1944-8252
DOI:10.1021/am5090226