Please use this identifier to cite or link to this item: http://hdl.handle.net/10603/431739
Title: Self assembled graphene oxide nanoparticles for damaging dna in cancer cells
Researcher: NANDI, ADITI
Guide(s): BASU, SUDIPTA
Keywords: Chemistry
Chemistry Applied
Physical Sciences
University: Indian Institute of Science Education and Research (IISER) Pune
Completed Date: 2019
Abstract: Cancer is a multifactorial mutagenic disease making it one of the leading causes of death globally The complexity and heterogeneity associated with cancer presents a challenging problem with respect to its treatment In recent years the incorporation of nanotechnology in cancer treatment has revolutionized the field of cancer therapy Various nanoplatforms have been used for anticancer drugs to specifically target cancer cells but all have their own associated drawbacks limiting their application Also the combined use of multiple drugs into a single nanoplatform still remains a considerable challenge Graphene oxide based biocompatible nanoscale materials by virtue of their unique physicochemical properties and the large surface have the potential to tackle this complication To address this issue we have developed novel cisplatin mediated self assembled 3D graphene oxide spherical nanoparticles GO NP 8217 s of size less than 200nm from 2D graphene oxide sheets The nanoparticles can also be loaded with additional DNA damaging drugs along with cisplatin which is a widely used drug in cancer treatment These dual drug containing graphene oxide spherical nanoparticles successfully displayed their anticancer activity by damaging the DNA which is the most important target to cease essential cellular functions and hence induce apoptosis in cancer cells Further to enhance the dispersibility and biocompatibility of the 3D GO NP 8217 s for safer biomedical applications we employed surface functionalization of the graphene oxide sheets with biocompatible polymers like Polyethyleneglycol PEG and Poly maleic acid PMA and self assembled them into spherical nanoparticles via cisplatin Subsequently we loaded the nanoparticles with an inhibitor of an important DNA associated enzyme Topoisomerase I The modified nanoparticles induced DNA damage along with enzyme inhibition activating programmed cell death in HeLa cervical cancer cells Lastly we have engineered a lipid coated self assembled spherical 3D GO nanoparticle GO Na
Pagination: NA
URI: http://hdl.handle.net/10603/431739
Appears in Departments:Department of Chemistry

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