Your search keyword '"Govindaraj, Saravanan"' showing total 4 results

1. Formulation and characterization of folate receptor-targeted PEGylated liposome encapsulating bioactive compounds from Kappaphycus alvarezii for cancer therapy

Author

Baskararaj, Suraj, Panneerselvam, Theivendren, Govindaraj, Saravanan, Arunachalam, Sankarganesh, Parasuraman, Pavadai, Pandian, Sureshbabu Ram Kumar, Sankaranarayanan, Murugesan, Mohan, Uma Priya, Palanisamy, Ponnusamy, Ravishankar, Vigneshwaran, and Kunjiappan, Selvaraj

Published

2020

2. Modeling a pH-sensitive Zein-co-acrylic acid hybrid hydrogels loaded 5-fluorouracil and rutin for enhanced anticancer efficacy by oral delivery

Author

Bathrinath Sankaranarayanan, Govindaraj Saravanan, Murugesan Sankaranarayanan, Panneerselvam Theivendran, Jawahar Natarajan, Balasubramanian Somasundaram, Suraj Baskararaj, Ponnusamy Palanisamy, Sankarganesh Arunachalam, Selvaraj Kunjiappan, and Ashish Wadhwani

Subjects

Biocompatibility, Intrinsic viscosity, Environmental Science (miscellaneous), Biodegradation, Agricultural and Biological Sciences (miscellaneous), Controlled release, chemistry.chemical_compound, Rutin, chemistry, Polymerization, Self-healing hydrogels, Biotechnology, Nuclear chemistry, Acrylic acid

Abstract

The combination of natural and synthetic polymeric materials grafted hydrogels offer great potential as oral therapeutic systems because of its intrinsic biocompatibility, biodegradability, protect labile drugs from metabolism and controlled release properties. Hence, in the present study, we aimed to prepare and optimize oral delivered pH-responsive Zein-co-acrylic acid hydrogels incorporated with 5-fluorouracil (5-Fu) and rutin (Ru) for effective anticancer activity with less toxicity. In this study, graft polymerization technique is adopted to formulate hydrogels with various ratios of Zein, acrylic acid, N, N-methylene bisacrylamide, and ammonium persulphate as an initiator. The optimized formulation was identified based on the cross-linking, chemical interactions, intrinsic viscosity (η), dynamic swelling (Q) at pH 1.2, diffusion coefficient (D), sol–gel fraction (%), and porosity (%). The selected optimized formulation has shown significant improvement in drugs loading and encapsulation efficiency, releasing at pH 1.2 and pH 7.4. Drug release kinetics studies confirmed the controlled release properties of hydrogels. Hydrogels were porous and the drug loading of 5-Fu and Ru was found to be 12.13% and 10.86%, respectively, whereas encapsulation efficiency of 5-Fu and Ru was 89.35% and 81.47%, respectively. Furthermore, form the in vitro cytotoxic screening, it was found that 52.5 µg mL−1 5-Fu and Ru-loaded hydrogel impacted 50% of cell death at 24 h, there by significantly arresting the proliferation of MDA-MB-231 and MCF-7 breast cancer cell lines. Altogether, the optimized pH-responsive hydrogels make them favorable carrier for anticancer drugs for oral delivery.

Published

2019

3. Modeling a pH-sensitive Zein

Author

Selvaraj, Kunjiappan, Panneerselvam, Theivendran, Suraj, Baskararaj, Bathrinath, Sankaranarayanan, Ponnusamy, Palanisamy, Govindaraj, Saravanan, Sankarganesh, Arunachalam, Murugesan, Sankaranarayanan, Jawahar, Natarajan, Balasubramanian, Somasundaram, and Ashish, Wadhwani

Subjects

Original Article

Abstract

The combination of natural and synthetic polymeric materials grafted hydrogels offer great potential as oral therapeutic systems because of its intrinsic biocompatibility, biodegradability, protect labile drugs from metabolism and controlled release properties. Hence, in the present study, we aimed to prepare and optimize oral delivered pH-responsive Zein-co-acrylic acid hydrogels incorporated with 5-fluorouracil (5-Fu) and rutin (Ru) for effective anticancer activity with less toxicity. In this study, graft polymerization technique is adopted to formulate hydrogels with various ratios of Zein, acrylic acid, N, N-methylene bisacrylamide, and ammonium persulphate as an initiator. The optimized formulation was identified based on the cross-linking, chemical interactions, intrinsic viscosity (η), dynamic swelling (Q) at pH 1.2, diffusion coefficient (D), sol–gel fraction (%), and porosity (%). The selected optimized formulation has shown significant improvement in drugs loading and encapsulation efficiency, releasing at pH 1.2 and pH 7.4. Drug release kinetics studies confirmed the controlled release properties of hydrogels. Hydrogels were porous and the drug loading of 5-Fu and Ru was found to be 12.13% and 10.86%, respectively, whereas encapsulation efficiency of 5-Fu and Ru was 89.35% and 81.47%, respectively. Furthermore, form the in vitro cytotoxic screening, it was found that 52.5 µg mL(−1) 5-Fu and Ru-loaded hydrogel impacted 50% of cell death at 24 h, there by significantly arresting the proliferation of MDA-MB-231 and MCF-7 breast cancer cell lines. Altogether, the optimized pH-responsive hydrogels make them favorable carrier for anticancer drugs for oral delivery.

Published

2018

4. Formulation and characterization of folate receptor-targeted PEGylated liposome encapsulating bioactive compounds from Kappaphycus alvareziifor cancer therapy

Author

Baskararaj, Suraj, Panneerselvam, Theivendren, Govindaraj, Saravanan, Arunachalam, Sankarganesh, Parasuraman, Pavadai, Pandian, Sureshbabu Ram Kumar, Sankaranarayanan, Murugesan, Mohan, Uma Priya, Palanisamy, Ponnusamy, Ravishankar, Vigneshwaran, and Kunjiappan, Selvaraj

Abstract

This study aimed to formulate and characterize the folate receptor-targeted PEGylated liposome encapsulating bioactive compounds from Kappaphycus alvareziito enhance the anticancer activity. Twenty valued bioactive compounds (3-hydroxy benzoicacid, gallicacid, chlorogenicacid, cinnamicacid, artemiseole, hydrazine carbothioamide, etc.,) are confirmed from methanol extract of K. alvareziiusing analytical techniques like HPLC and GC–MS. The delivery of bioactive compounds of K. alvareziivia naturally overexpressed folate receptor (FR) to FR-positive breast cancer cells was studied. FR targeted PEGylated liposome was constructed by modified thin-film hydration technique using FA-PEG-DSPE/cholesterol/DSPC (5:40:55) and bioactive compounds of K. alvareziiwas encapsulated. Their morphology, size, shape, physiological stability and drug release kinetics were studied. The study reports of K. alvareziiextract-encapsulated PEGylated liposome showed spherical shaped particles with amorphous in nature. The mean diameter of K. alvareziiextract–encapsulated PEGylated and FA-conjugated PEGylated liposomes was found to be 110 ± 6 nm and 140 ± 5 nm, respectively. Based on the stability studies, it could be confirmed that FA-conjugated PEGylated liposome was highly stable in various physiological buffer medium. FA-conjugated PEGylated liposome can steadily release the bioactive compounds of K. alvareziiextract in acidic medium (pH 5.4). MTT assay demonstrated the concentration-dependent cytotoxicity against MCF-7 cells after 24 h with IC50of 81 µg/mL. Also, PEGylated liposome enhanced the delivery of K. alvareziiextract in MCF-7 cells. After treatment, typical apoptotic morphology of condensed nuclei and distorted membrane bodies was picturized. Additionally, PEGylated liposome targets the mitochondria of MCF-7 cells and significantly increased the level of ROS and contributes to the damage of mitochondrial transmembrane potential. Hence, PEGylated liposome could positively deliver the bioactive compounds of K. alvareziiextract into FR-positive breast cancer cells (MCF-7) and exhibit great potential in anticancer therapy.

Published

2020