Use of Biocompatible Sorafenib-gold Nanoconjugates for Reversal of Drug Resistance in Human Hepatoblatoma Cells

Use of Biocompatible Sorafenib-gold Nanoconjugates for Reversal of Drug Resistance in Human Hepatoblatoma Cells

Abstract The present study identifies the potential of highly biocompatible SF-GNP nano-conjugate to enhance the chemotherapeutic response to combat drug resistance in cancer cells. We developed a stable colloidal suspension of sorafenib-gold nanoconjugate (SF-GNP) of <10 nm size in aqueous mediu...

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Main Authors: Sandeep Kumar Vishwakarma, Priyanka Sharmila, Avinash Bardia, Lakkireddy Chandrakala, N. Raju, G. Sravani, B. V. S. Sastry, Md Aejaz Habeeb, Aleem Ahmed Khan, Marshal Dhayal
Format: Article
Language:English
Published: Nature Publishing Group 2017-08-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-08878-y
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spelling doaj-d0e4b84a554d47299fdab6cb2a459a2a2020-12-08T01:35:13ZengNature Publishing GroupScientific Reports2045-23222017-08-017111210.1038/s41598-017-08878-yUse of Biocompatible Sorafenib-gold Nanoconjugates for Reversal of Drug Resistance in Human Hepatoblatoma CellsSandeep Kumar Vishwakarma0Priyanka Sharmila1Avinash Bardia2Lakkireddy Chandrakala3N. Raju4G. Sravani5B. V. S. Sastry6Md Aejaz Habeeb7Aleem Ahmed Khan8Marshal Dhayal9Clinical Research Facility, Medical Biotechnology Complex, CSIR-Centre for Cellular and Molecular Biology, Uppal Road, HabsigudaClinical Research Facility, Medical Biotechnology Complex, CSIR-Centre for Cellular and Molecular Biology, Uppal Road, HabsigudaCentral Laboratory for Stem Cell Research and Translational Medicine, Centre for Liver Research and Diagnostics, Deccan College of Medical SciencesCentral Laboratory for Stem Cell Research and Translational Medicine, Centre for Liver Research and Diagnostics, Deccan College of Medical SciencesCentral Laboratory for Stem Cell Research and Translational Medicine, Centre for Liver Research and Diagnostics, Deccan College of Medical SciencesCentral Laboratory for Stem Cell Research and Translational Medicine, Centre for Liver Research and Diagnostics, Deccan College of Medical SciencesCentral Laboratory for Stem Cell Research and Translational Medicine, Centre for Liver Research and Diagnostics, Deccan College of Medical SciencesCentral Laboratory for Stem Cell Research and Translational Medicine, Centre for Liver Research and Diagnostics, Deccan College of Medical SciencesCentral Laboratory for Stem Cell Research and Translational Medicine, Centre for Liver Research and Diagnostics, Deccan College of Medical SciencesClinical Research Facility, Medical Biotechnology Complex, CSIR-Centre for Cellular and Molecular Biology, Uppal Road, HabsigudaAbstract The present study identifies the potential of highly biocompatible SF-GNP nano-conjugate to enhance the chemotherapeutic response to combat drug resistance in cancer cells. We developed a stable colloidal suspension of sorafenib-gold nanoconjugate (SF-GNP) of <10 nm size in aqueous medium for reverting the cancer drug resistance in SF-resistant HepG2 cells in a 3D ex-vivo model system. In-vivo biocompatibility assay of SF-GNPs showed absence of systemic toxicological effects including hematological, biochemical and histological parameters. More importantly, the histopathological analysis of vital organs such as liver, brain, lung, kidney and heart showed very least or no sign of inflammation, cell infiltration, necrosis, tissue disorganization or fibrotic reactions after intra-peritoneal administration of SF-GNP nanoconjugates in animals. However, SF-GNP nanoconjugates significantly reduced (>80%) the percentage cell survival and the size and number of SF resistant solid tumor colonies of HepG2 cells in 3D model system. The exposure of SF-GNP nanoconjugate to SF resistant HepG2 cell colonies also provided evidence for anti-proliferative effect and reversal of drug resistance by elucidating the molecular regulatory mechanisms of extracellular matrix factor (CD147), tumor growth factor (TGF-β), hepatoma upregulated protein (hURP) and drug transporter (ABCG-2).https://doi.org/10.1038/s41598-017-08878-y
collection DOAJ
language English
format Article
sources DOAJ
author Sandeep Kumar Vishwakarma
Priyanka Sharmila
Avinash Bardia
Lakkireddy Chandrakala
N. Raju
G. Sravani
B. V. S. Sastry
Md Aejaz Habeeb
Aleem Ahmed Khan
Marshal Dhayal
spellingShingle Sandeep Kumar Vishwakarma
Priyanka Sharmila
Avinash Bardia
Lakkireddy Chandrakala
N. Raju
G. Sravani
B. V. S. Sastry
Md Aejaz Habeeb
Aleem Ahmed Khan
Marshal Dhayal
Use of Biocompatible Sorafenib-gold Nanoconjugates for Reversal of Drug Resistance in Human Hepatoblatoma Cells
Scientific Reports
author_facet Sandeep Kumar Vishwakarma
Priyanka Sharmila
Avinash Bardia
Lakkireddy Chandrakala
N. Raju
G. Sravani
B. V. S. Sastry
Md Aejaz Habeeb
Aleem Ahmed Khan
Marshal Dhayal
author_sort Sandeep Kumar Vishwakarma
title Use of Biocompatible Sorafenib-gold Nanoconjugates for Reversal of Drug Resistance in Human Hepatoblatoma Cells
title_short Use of Biocompatible Sorafenib-gold Nanoconjugates for Reversal of Drug Resistance in Human Hepatoblatoma Cells
title_full Use of Biocompatible Sorafenib-gold Nanoconjugates for Reversal of Drug Resistance in Human Hepatoblatoma Cells
title_fullStr Use of Biocompatible Sorafenib-gold Nanoconjugates for Reversal of Drug Resistance in Human Hepatoblatoma Cells
title_full_unstemmed Use of Biocompatible Sorafenib-gold Nanoconjugates for Reversal of Drug Resistance in Human Hepatoblatoma Cells
title_sort use of biocompatible sorafenib-gold nanoconjugates for reversal of drug resistance in human hepatoblatoma cells
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-08-01
description Abstract The present study identifies the potential of highly biocompatible SF-GNP nano-conjugate to enhance the chemotherapeutic response to combat drug resistance in cancer cells. We developed a stable colloidal suspension of sorafenib-gold nanoconjugate (SF-GNP) of <10 nm size in aqueous medium for reverting the cancer drug resistance in SF-resistant HepG2 cells in a 3D ex-vivo model system. In-vivo biocompatibility assay of SF-GNPs showed absence of systemic toxicological effects including hematological, biochemical and histological parameters. More importantly, the histopathological analysis of vital organs such as liver, brain, lung, kidney and heart showed very least or no sign of inflammation, cell infiltration, necrosis, tissue disorganization or fibrotic reactions after intra-peritoneal administration of SF-GNP nanoconjugates in animals. However, SF-GNP nanoconjugates significantly reduced (>80%) the percentage cell survival and the size and number of SF resistant solid tumor colonies of HepG2 cells in 3D model system. The exposure of SF-GNP nanoconjugate to SF resistant HepG2 cell colonies also provided evidence for anti-proliferative effect and reversal of drug resistance by elucidating the molecular regulatory mechanisms of extracellular matrix factor (CD147), tumor growth factor (TGF-β), hepatoma upregulated protein (hURP) and drug transporter (ABCG-2).
url https://doi.org/10.1038/s41598-017-08878-y
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