Novel ZnO hollow-nanocarriers containing paclitaxel targeting folate-receptors in a malignant pH-microenvironment for effective monitoring and promoting breast tumor regression

Nagaprasad Puvvada; Shashi Rajput; B. Prashanth Kumar; Siddik Sarkar; Suraj Konar; Keith R. Brunt; Raj R. Rao; Abhijit Mazumdar; Swadesh K. Das; Ranadhir Basu; Paul B. Fisher; Mahitosh Mandal; Amita Pathak

doi:10.1038/srep11760

Novel ZnO hollow-nanocarriers containing paclitaxel targeting folate-receptors in a malignant pH-microenvironment for effective monitoring and promoting breast tumor regression

Nagaprasad Puvvada, Shashi Rajput, B. Prashanth Kumar, Siddik Sarkar, Suraj Konar, Keith R. Brunt, Raj R. Rao, Abhijit Mazumdar, Swadesh K. Das, Ranadhir Basu, Paul B. Fisher, Mahitosh Mandal, Amita Pathak

Medicine

Research output: Contribution to journal › Article › peer-review

73 Citations (Scopus)

Abstract

Low pH in the tumor micromilieu is a recognized pathological feature of cancer. This attribute of cancerous cells has been targeted herein for the controlled release of chemotherapeutics at the tumour site, while sparing healthy tissues. To this end, pH-sensitive, hollow ZnO-nanocarriers loaded with paclitaxel were synthesized and their efficacy studied in breast cancer in vitro and in vivo. The nanocarriers were surface functionalized with folate using click-chemistry to improve targeted uptake by the malignant cells that over-express folate-receptors. The nanocarriers released ∼75% of the paclitaxel payload within six hours in acidic pH, which was accompanied by switching of fluorescence from blue to green and a 10-fold increase in the fluorescence intensity. The fluorescence-switching phenomenon is due to structural collapse of the nanocarriers in the endolysosome. Energy dispersion X-ray mapping and whole animal fluorescent imaging studies were carried out to show that combined pH and folate-receptor targeting reduces off-target accumulation of the nanocarriers. Further, a dual cell-specific and pH-sensitive nanocarrier greatly improved the efficacy of paclitaxel to regress subcutaneous tumors in vivo. These nanocarriers could improve chemotherapy tolerance and increase anti-tumor efficacy, while also providing a novel diagnostic read-out through fluorescent switching that is proportional to drug release in malignant tissues.

Original language	English
Article number	11760
Journal	Scientific Reports
Volume	5
DOIs	https://doi.org/10.1038/srep11760
Publication status	Published - Jul 6 2015

Bibliographical note

Funding Information:
This work was supported by funds from the Department of Chemistry and School of Medical Science and Technology, Indian Institute of Technology Kharagpur, INDIA. Further, in part was funded by grants from Department of Biotechnology (DBT) and Department of Science and Technology (DST), INDIA. Research support was also provided through the VCU Massey Cancer Center (MCC), Virginia Commonwealth University (VCU), School of Medicine (SOM), Richmond, Virginia, USA. Keith Brunt acknowledges grant from NSERC (Grant # RGPIN/5520-2014), Dalhousie Medicine New Brunswick, CANADA. We thank DST-FIST, INDIA for 400 MHz NMR facility. Nagaprasad Puvvada is thankful to Indian Institute of Technology Kharagpur, INDIA for fellowship. Shashi Rajput and B. N. Prashanth Kumar acknowledge Research fellowships from the Council of Scientific and Industrial Research (CSIR), INDIA. Paul B. Fisher holds the Thelma Newmeyer Corman Chair in Cancer Research in the MCC, VCU SOM, Richmond, Virginia, USA. Nagaprasad Puvvada acknowledges post doctorate fellowships from Reynold’s (Dalhousie University) and NBHRF-CIHR-SPOR –MSSU(NBHRF), CANADA.

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Puvvada, N., Rajput, S., Prashanth Kumar, B., Sarkar, S., Konar, S., Brunt, K. R., Rao, R. R., Mazumdar, A., Das, S. K., Basu, R., Fisher, P. B., Mandal, M., & Pathak, A. (2015). Novel ZnO hollow-nanocarriers containing paclitaxel targeting folate-receptors in a malignant pH-microenvironment for effective monitoring and promoting breast tumor regression. Scientific Reports, 5, Article 11760. https://doi.org/10.1038/srep11760

Puvvada, N, Rajput, S, Prashanth Kumar, B, Sarkar, S, Konar, S, Brunt, KR, Rao, RR, Mazumdar, A, Das, SK, Basu, R, Fisher, PB, Mandal, M & Pathak, A 2015, 'Novel ZnO hollow-nanocarriers containing paclitaxel targeting folate-receptors in a malignant pH-microenvironment for effective monitoring and promoting breast tumor regression', Scientific Reports, vol. 5, 11760. https://doi.org/10.1038/srep11760

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title = "Novel ZnO hollow-nanocarriers containing paclitaxel targeting folate-receptors in a malignant pH-microenvironment for effective monitoring and promoting breast tumor regression",

abstract = "Low pH in the tumor micromilieu is a recognized pathological feature of cancer. This attribute of cancerous cells has been targeted herein for the controlled release of chemotherapeutics at the tumour site, while sparing healthy tissues. To this end, pH-sensitive, hollow ZnO-nanocarriers loaded with paclitaxel were synthesized and their efficacy studied in breast cancer in vitro and in vivo. The nanocarriers were surface functionalized with folate using click-chemistry to improve targeted uptake by the malignant cells that over-express folate-receptors. The nanocarriers released ∼75% of the paclitaxel payload within six hours in acidic pH, which was accompanied by switching of fluorescence from blue to green and a 10-fold increase in the fluorescence intensity. The fluorescence-switching phenomenon is due to structural collapse of the nanocarriers in the endolysosome. Energy dispersion X-ray mapping and whole animal fluorescent imaging studies were carried out to show that combined pH and folate-receptor targeting reduces off-target accumulation of the nanocarriers. Further, a dual cell-specific and pH-sensitive nanocarrier greatly improved the efficacy of paclitaxel to regress subcutaneous tumors in vivo. These nanocarriers could improve chemotherapy tolerance and increase anti-tumor efficacy, while also providing a novel diagnostic read-out through fluorescent switching that is proportional to drug release in malignant tissues.",

author = "Nagaprasad Puvvada and Shashi Rajput and {Prashanth Kumar}, B. and Siddik Sarkar and Suraj Konar and Brunt, {Keith R.} and Rao, {Raj R.} and Abhijit Mazumdar and Das, {Swadesh K.} and Ranadhir Basu and Fisher, {Paul B.} and Mahitosh Mandal and Amita Pathak",

note = "Funding Information: This work was supported by funds from the Department of Chemistry and School of Medical Science and Technology, Indian Institute of Technology Kharagpur, INDIA. Further, in part was funded by grants from Department of Biotechnology (DBT) and Department of Science and Technology (DST), INDIA. Research support was also provided through the VCU Massey Cancer Center (MCC), Virginia Commonwealth University (VCU), School of Medicine (SOM), Richmond, Virginia, USA. Keith Brunt acknowledges grant from NSERC (Grant # RGPIN/5520-2014), Dalhousie Medicine New Brunswick, CANADA. We thank DST-FIST, INDIA for 400 MHz NMR facility. Nagaprasad Puvvada is thankful to Indian Institute of Technology Kharagpur, INDIA for fellowship. Shashi Rajput and B. N. Prashanth Kumar acknowledge Research fellowships from the Council of Scientific and Industrial Research (CSIR), INDIA. Paul B. Fisher holds the Thelma Newmeyer Corman Chair in Cancer Research in the MCC, VCU SOM, Richmond, Virginia, USA. Nagaprasad Puvvada acknowledges post doctorate fellowships from Reynold{\textquoteright}s (Dalhousie University) and NBHRF-CIHR-SPOR –MSSU(NBHRF), CANADA.",

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AU - Puvvada, Nagaprasad

AU - Rajput, Shashi

AU - Prashanth Kumar, B.

AU - Sarkar, Siddik

AU - Konar, Suraj

AU - Brunt, Keith R.

AU - Rao, Raj R.

AU - Mazumdar, Abhijit

AU - Das, Swadesh K.

AU - Basu, Ranadhir

AU - Fisher, Paul B.

AU - Mandal, Mahitosh

AU - Pathak, Amita

N1 - Funding Information: This work was supported by funds from the Department of Chemistry and School of Medical Science and Technology, Indian Institute of Technology Kharagpur, INDIA. Further, in part was funded by grants from Department of Biotechnology (DBT) and Department of Science and Technology (DST), INDIA. Research support was also provided through the VCU Massey Cancer Center (MCC), Virginia Commonwealth University (VCU), School of Medicine (SOM), Richmond, Virginia, USA. Keith Brunt acknowledges grant from NSERC (Grant # RGPIN/5520-2014), Dalhousie Medicine New Brunswick, CANADA. We thank DST-FIST, INDIA for 400 MHz NMR facility. Nagaprasad Puvvada is thankful to Indian Institute of Technology Kharagpur, INDIA for fellowship. Shashi Rajput and B. N. Prashanth Kumar acknowledge Research fellowships from the Council of Scientific and Industrial Research (CSIR), INDIA. Paul B. Fisher holds the Thelma Newmeyer Corman Chair in Cancer Research in the MCC, VCU SOM, Richmond, Virginia, USA. Nagaprasad Puvvada acknowledges post doctorate fellowships from Reynold’s (Dalhousie University) and NBHRF-CIHR-SPOR –MSSU(NBHRF), CANADA.

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N2 - Low pH in the tumor micromilieu is a recognized pathological feature of cancer. This attribute of cancerous cells has been targeted herein for the controlled release of chemotherapeutics at the tumour site, while sparing healthy tissues. To this end, pH-sensitive, hollow ZnO-nanocarriers loaded with paclitaxel were synthesized and their efficacy studied in breast cancer in vitro and in vivo. The nanocarriers were surface functionalized with folate using click-chemistry to improve targeted uptake by the malignant cells that over-express folate-receptors. The nanocarriers released ∼75% of the paclitaxel payload within six hours in acidic pH, which was accompanied by switching of fluorescence from blue to green and a 10-fold increase in the fluorescence intensity. The fluorescence-switching phenomenon is due to structural collapse of the nanocarriers in the endolysosome. Energy dispersion X-ray mapping and whole animal fluorescent imaging studies were carried out to show that combined pH and folate-receptor targeting reduces off-target accumulation of the nanocarriers. Further, a dual cell-specific and pH-sensitive nanocarrier greatly improved the efficacy of paclitaxel to regress subcutaneous tumors in vivo. These nanocarriers could improve chemotherapy tolerance and increase anti-tumor efficacy, while also providing a novel diagnostic read-out through fluorescent switching that is proportional to drug release in malignant tissues.

AB - Low pH in the tumor micromilieu is a recognized pathological feature of cancer. This attribute of cancerous cells has been targeted herein for the controlled release of chemotherapeutics at the tumour site, while sparing healthy tissues. To this end, pH-sensitive, hollow ZnO-nanocarriers loaded with paclitaxel were synthesized and their efficacy studied in breast cancer in vitro and in vivo. The nanocarriers were surface functionalized with folate using click-chemistry to improve targeted uptake by the malignant cells that over-express folate-receptors. The nanocarriers released ∼75% of the paclitaxel payload within six hours in acidic pH, which was accompanied by switching of fluorescence from blue to green and a 10-fold increase in the fluorescence intensity. The fluorescence-switching phenomenon is due to structural collapse of the nanocarriers in the endolysosome. Energy dispersion X-ray mapping and whole animal fluorescent imaging studies were carried out to show that combined pH and folate-receptor targeting reduces off-target accumulation of the nanocarriers. Further, a dual cell-specific and pH-sensitive nanocarrier greatly improved the efficacy of paclitaxel to regress subcutaneous tumors in vivo. These nanocarriers could improve chemotherapy tolerance and increase anti-tumor efficacy, while also providing a novel diagnostic read-out through fluorescent switching that is proportional to drug release in malignant tissues.

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Novel ZnO hollow-nanocarriers containing paclitaxel targeting folate-receptors in a malignant pH-microenvironment for effective monitoring and promoting breast tumor regression

Abstract

Bibliographical note

ASJC Scopus Subject Areas

UN SDGs

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