Your search keyword '"Kumar, G. S. Vinod"' showing total 4 results

1. Sorafenib-Entrapped, Self-Assembled Pullulan-Stearic Acid Biopolymer-Derived Drug Delivery System to PLC/PRF/5 Hepatocellular Carcinoma Model.

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Author

Chirayil TJ and Kumar GSV

Subjects

Mice, Animals, Sorafenib therapeutic use, Tissue Distribution, Glucans chemistry, Asialoglycoprotein Receptor metabolism, Drug Delivery Systems, Drug Carriers chemistry, Carcinoma, Hepatocellular drug therapy, Liver Neoplasms pathology, Nanoparticles chemistry, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use

Abstract

Purpose: This study aimed to design a prototypic drug delivery system (DDS) made of an amphiphilic, pullulan (Pull)-derived biodegradable polymer for targeting the asialoglycoprotein receptor (ASGPR) overexpressed in HCC. Stearic acid (SA) was conjugated to increase the hydrophobicity of pullulan (Pull-SA)., Methods: Pullulan (Pull) was linked to stearic acid (SA) after functional group modifications via EDC/NHS chemistry and characterized. Sorafenib tosylate (SRFT) was entrapped in pullulan-stearic acid nanoparticles (Pull-SA-SRFT) and its particle size, zeta potential, entrapment efficiency (EE), loading capacity (LC), and release efficiency was measured. The competence of Pull-SA-SRFT over SRFT in vitro was assessed using the ASGPR over-expressing PLC/PRF/5 hepatocellular carcinoma (HCC) cell line. This was done by studying cytotoxicity by MTT assay and chromosome condensation assay, early apoptosis by annexin-Pi staining, and late apoptosis by live-dead assay. The cellular uptake study was performed by incorporating coumarin-6 (C6) fluorophore in place of SRFT in Pull-SA conjugates. A biodistribution study was conducted in Swiss-albino mice to assess the biocompatibility and targeting properties of SRFT and Pull-SA-SRFT to the liver and other organs at 1, 6, 24, and 48 h., Results: The characterization studies of the copolymer confirmed the successful conjugation of Pull-SA. The self-assembled amphiphilic nanocarrier could proficiently entrap the hydrophobic drug SRFT to obtain an entrapment efficiency of 95.6% (Pull-SA-SRFT). Characterization of the synthesized nanoparticles exhibited highly desirable nanoparticle characteristics. In vitro, apoptotic studies urged that Pull-SA-SRFT nanoparticle was delivered more efficiently to HCC than SRFT. The cellular uptake study performed, gave propitious results in 4 hrs. The biodistribution study conducted in immunocompetent mice suggested that Pull-SA-SRFT was delivered more than SRFT to the liver when compared to other organs, and that the system was biocompatible., Conclusion: Pull-SA-SRFT is a promisingly safe, biodegradable, cell-specific nanocarrier and a potential candidate to target hydrophobic drugs to HCC., Competing Interests: The authors declare no conflicts of interest in this work., (© 2022 Chirayil and Kumar.) more...

Published

2022

2. Chitosan Encapsulation Enhances the Bioavailability and Tissue Retention of Curcumin and Improves its Efficacy in Preventing B[a]P-induced Lung Carcinogenesis.

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Author

Vijayakurup V, Thulasidasan AT, Shankar G M, Retnakumari AP, Nandan CD, Somaraj J, Antony J, Alex VV, Vinod BS, Liju VB, Sundaram S, Kumar GSV, and Anto RJ

Subjects

Animals, Antineoplastic Agents chemistry, Biological Availability, Curcumin chemistry, Lung Neoplasms chemically induced, Lung Neoplasms pathology, Male, Mice, Nanoparticles chemistry, Antineoplastic Agents pharmacology, Benzo(a)pyrene toxicity, Chitosan chemistry, Curcumin pharmacology, Lung Neoplasms drug therapy, Nanoparticles administration & dosage

Abstract

The rate of lung cancer incidence is alarmingly mounting, despite the decline of smoking and tobacco consumption. Recent reports indicate a very high correlation between the growing fast food culture and lung cancer incidence. Benzo[a]pyrene (B[a]P) is a potent carcinogen abundantly present in grilled and deep-fried food and in tobacco smoke. Our previous studies have proved the efficacy of curcumin in curbing B[a]P-induced lung carcinogenesis. However, the poor pharmacokinetic profile of the compound considerably hampers its potential as an effective chemopreventive. This study was intended to evaluate whether encapsulation of curcumin in chitosan nanoparticles can improve the cellular uptake and prolong the tissue retention of curcumin yielding better chemoprevention. The curcumin-loaded chitosan nanoparticles (chitosan nanocurcumin) exhibited a size of 170-200 nm in transmission electron microscopy. In vitro drug release studies showed sustained release of curcumin over a period of approximately 180 hours and excellent intracellular uptake and cytotoxicity in lung cancer cells. Bioavailability studies using healthy Swiss albino mice demonstrated drastic enhancement in lung localization of chitosan nanocurcumin compared with free curcumin. Toxicologic evaluation using chronic toxicity model in Swiss albino mice confirmed the pharmacologic safety of the formulation. Moreover, the formulation, even at a dose equivalent to one fourth that of free curcumin, exhibits better efficacy in reducing tumor incidence and multiplicity than free curcumin, thereby hampering development of B[a]P-induced lung adenocarcinomas in Swiss albino mice. Hence, our study underscores the supremacy of the formulation over free curcumin and establishes it as a potential chemopreventive and oral supplement against environmental carcinogenesis., (©2019 American Association for Cancer Research.) more...

Published

2019

3. Cross-linked acrylic hydrogel for the controlled delivery of hydrophobic drugs in cancer therapy.

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Author

Deepa G, Thulasidasan AK, Anto RJ, Pillai JJ, and Kumar GS

Subjects

Acrylates administration & dosage, Antineoplastic Agents chemistry, Antineoplastic Agents pharmacokinetics, Apoptosis drug effects, Cell Cycle Checkpoints drug effects, Cell Survival drug effects, Curcumin administration & dosage, Curcumin chemistry, Curcumin pharmacokinetics, Dimethyl Sulfoxide, Down-Regulation drug effects, HeLa Cells, Humans, Hydrogen-Ion Concentration, Hydrophobic and Hydrophilic Interactions, Nanostructures administration & dosage, Particle Size, Polyethylene Glycols administration & dosage, Spectroscopy, Fourier Transform Infrared, Acrylates chemistry, Antineoplastic Agents administration & dosage, Drug Delivery Systems methods, Hydrogels chemistry, Nanostructures chemistry, Polyethylene Glycols chemistry

Abstract

Objective: To investigate cross-linked hydrogels prepared via inverse emulsion polymerization to entrap poorly aqueous soluble drugs. Polyethylene glycol cross-linked acrylic polymers were synthesized and the loading and release of curcumin, a model hydrophobic drug, was investigated., Methods: Physicochemical characteristics of hydrogels were studied with (13)C nuclear magnetic resonance, Fourier transform infrared spectroscopy, transmission electron microscopy, scanning electron microscopy, differential scanning calorimetry, and swelling. Polymerization of the acrylic acid with cross-linked polyethylene glycol diacrylate was characterized with (13)C nuclear magnetic resonance imaging and Fourier transform infrared spectroscopy., Results: The in vitro release rate of curcumin showed that there was a sustained release from the hydrogel with increased cross-linking; the release rate depended on the pH of the releasing medium. Intracellular and cytotoxicity studies were carried out in human cervical cancer cell lines., Conclusion: The results suggest cross-linked acrylic polymers can be used as efficient vectors for pH-sensitive, controlled delivery of hydrophobic drugs. more...

Published

2012

4. Biological evaluation of 5-fluorouracil nanoparticles for cancer chemotherapy and its dependence on the carrier, PLGA.

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Author

Nair K L, Jagadeeshan S, Nair SA, and Kumar GS

Subjects

Acridine Orange, Antineoplastic Agents pharmacokinetics, Apoptosis drug effects, Calorimetry, Differential Scanning, Cell Cycle Checkpoints drug effects, Cell Line, Tumor, Cell Survival drug effects, Delayed-Action Preparations, Drug Carriers administration & dosage, Drug Carriers pharmacokinetics, Ethidium, Flow Cytometry, Fluorouracil pharmacokinetics, Humans, Lactic Acid pharmacokinetics, Microscopy, Confocal, Microscopy, Electron, Transmission, Nanoparticles administration & dosage, Particle Size, Polyglycolic Acid pharmacokinetics, Polylactic Acid-Polyglycolic Acid Copolymer, Antineoplastic Agents administration & dosage, Antineoplastic Agents chemistry, Drug Carriers chemistry, Fluorouracil administration & dosage, Fluorouracil chemistry, Lactic Acid chemistry, Nanoparticles chemistry, Polyglycolic Acid chemistry

Abstract

Nanoscaled devices have great potential for drug delivery applications due to their small size. In the present study, we report for the first time the preparation and evaluation of antitumor efficacy of 5-fluorouracil (5-FU)-entrapped poly (D, L-lactic-co-glycolic acid) (PLGA) nanoparticles with dependence on the lactide/glycolide combination of PLGA. 5-FU-loaded PLGA nanoparticles with two different monomer combinations, 50-50 and 90-10 were synthesized using a modified double emulsion method, and their biological evaluation was done in glioma (U87MG) and breast adenocarcinoma (MCF7) cell lines. 5-FU-entrapped PLGA 50-50 nanoparticles showed smaller size with a high encapsulation efficiency of 66%, which was equivalent to that of PLGA 90-10 nanoparticles. Physicochemical characterization of nanoparticles using differential scanning calorimetry and X-ray diffraction suggested the presence of 5-FU in molecular dispersion form. In vitro release studies showed the prolonged and sustained release of 5-FU from nanoparticles with both the PLGA combinations, where PLGA 50-50 nanoparticles showed faster release. Nanoparticles with PLGA 50-50 combination exhibited better cytotoxicity than free drug in a dose- and time-dependent manner against both the tumor cell lines. The enhanced efficiency of PLGA 50-50 nanoparticles to induce apoptosis was indicated by acridine orange/ethidium bromide staining. Cell cycle perturbations studied using flow cytometer showed better S-phase arrest by nanoparticles in comparison with free 5-FU. All the results indicate that PLGA 50-50 nanoparticles possess better antitumor efficacy than PLGA 90-10 nanoparticles and free 5-FU. Since, studies have shown that long-term exposure of ailing tissues to moderate drug concentrations is more favorable than regular administration of higher concentration of the drug; our results clearly indicate the potential of 5-FU-loaded PLGA nanoparticles with dependence on carrier combination as controlled release formulation to multiplex the therapeutic effect of cancer chemotherapy. more...

Published

2011