Your search keyword '"Gupta, Kailash Chand"' showing total 6 results

1. Dextran based amphiphilic nano-hybrid hydrogel system incorporated with curcumin and cerium oxide nanoparticles for wound healing

Author

Andrabi, Syed Muntazir, Majumder, S., Gupta, Kailash Chand, and Kumar, Ashok

Published

2020

2. Cross-linked polyethylenimine-hexametaphosphate nanoparticles to deliver nucleic acids therapeutics.

Author

Patnaik, Soma, Arif, Mohammad, Pathak, Atul, Kurupati, Raj, Singh, Yogendra, and Gupta, Kailash Chand

Subjects

CROSSLINKED polymers, NUCLEIC acids, DRUG delivery systems, GENE transfection, GENE therapy, GREEN fluorescent protein, CONFOCAL microscopy, PHOSPHATES, THERAPEUTICS

Abstract

Abstract: Branched polyethylenimine (PEI; 25 kDa) as a nonviral vector exhibits high transfection efficiency and is a potential candidate for efficient gene delivery. However, the cytotoxicity of PEI limits its application in vivo. PEI was ionically interacted with hexametaphosphate, a compact molecule with high anionic charge density, to obtain nanoparticles (PEI-HMP). Nanoparticles were assessed for their efficacy in protecting complexed DNA against nucleases. The intracellular trafficking of nanoparticles was monitored by confocal microscopy. The cytotoxicity and transfection efficiency of PEI-HMP nanoparticles were evaluated in vitro. In vitro transfection efficiency of PEI-HMP (7.7%) was ∼1.3- to 6.4-folds higher than that of the commercial reagents GenePORTER 2TM, FugeneTM, and SuperfectTM. Also, PEI-HMP (7.7%) delivered green fluorescent protein (GFP)-specific small interfering ribonucleic acid (siRNA) in culture cells leading to >80% suppression in GFP gene expression. PEI-HMP nanoparticles protected complexed DNA against DNase for at least 2 hours. A time-course uptake of PEI-HMP (7.7%) nanoparticles showed the internalization of nanoparticles inside the cell nucleus in 2 hours. Thus, PEI-HMP nanoparticles efficiently transfect cells with negligible cytotoxicity and show great promise as nonviral vectors for gene delivery. From the Clinical Editor: Branched polyethylenimine (PEI) as a non-viral vector exhibits high transfection efficiency for gene delivery, but its cytotoxicity limits its applications. PEI hexametaphosphate nanoparticles (PEI-HMP) demonstrated a 1.3-6.4 folds higher transfection rate compared to commercial reagents. Overall, PEI-HMP nanoparticles efficiently transfect cells with negligible cytotoxicity and show great promise as non-viral vectors for gene delivery. [Copyright &y& Elsevier]

Published

2010

3. Functionalized graphene oxide mediated nucleic acid delivery

Author

Tripathi, Sushil Kumar, Goyal, Ritu, Gupta, Kailash Chand, and Kumar, Pradeep

Subjects

*GRAPHENE, *METALLIC oxides, *NUCLEIC acids, *FLUORESCENCE microscopy, *IMINES, *BIOCONJUGATES, *POLYMERS

Abstract

Abstract: We report a simple preparation of linear polyethylenimine-grafted graphene oxide (LP-GO) conjugates and their efficacy to transfer nucleic acids into the mammalian cells. Graphene oxide (GO), with epoxy functions on its surface, was reacted with different amounts of linear polyethylenimine (lPEI), a non-toxic polymer, to obtain three different positively charged LP-GO conjugates (LP-GO-1 to LP-GO-3), capable of interacting with negatively charged nucleic acids (gel retardation assay) and transporting them efficiently into the cells. The results show that these conjugates not only exhibited considerably higher transfection efficiency but also possessed even better cell viability than lPEI. LP-GO-2, the best system in terms of transfection efficiency, showed improved buffering capacity compared to lPEI and provided sufficient stability to bound DNA against DNase I. Further, LP-GO-2 was used for the sequential delivery of GFP specific siRNA, which resulted in ∼70% suppression of the target gene expression. Intracellular trafficking using fluorescence microscopy revealed that LP-GO-2 conjugate delivered pDNA in the nucleus within 1h of exposure. The results indicate the prospect of using these conjugates as efficient carriers of nucleic acids for future gene therapy applications. [Copyright &y& Elsevier]

Published

2013

4. Curcumin loaded selenium nanoparticles synergize the anticancer potential of doxorubicin contained in self-assembled, cell receptor targeted nanoparticles.

Author

Kumari, Manisha, Purohit, Mahaveer Prasad, Patnaik, Satyakam, Shukla, Yogeshwer, Kumar, Pradeep, and Gupta, Kailash Chand

Subjects

*NANOPARTICLES, *DOXORUBICIN, *SELENIUM, *APOPTOSIS, *CARCINOMA

Abstract

Doxorubicin (DOX) has been extensively used to treat a wide range of cancers in free and nanotized form. Nanotization of DOX has alleviated its toxicity and efflux-mediated resistance. However, frequent upregulation of anti-apoptotic pathways, chemotherapy-enhanced inflammation, and epithelial-mesenchymal transition (EMT), present additional aspects of cellular DOX résistance. Nanoparticle-mediated combination therapy of DOX with additional anticancer agents is expected to offer greater therapeutic benefit by alleviating the overall drug résistance. We synthesized CD44-targeted DOX loaded nanoparticles (PSHA-DOXNPs) and evaluated their anticancer efficacy in combination with curcumin loaded selenium nanoparticles (Se-Cur NPs), previously developed by our group (Kumari et al., 2017). Combination of these nanoparticles (NPs) increased ROS level, decreased mitochondrial membrane potential , induced cell cycle arrest and apoptosis in HCT116 cells. This combination decreased the expressions of NFκB, Phospho-NFκB, EMT-metastasis-associated proteins (Snail, Vimentin, N-cadherin, CD44, MMP-2 and MMP-9), autophagy-associated proteins (Beclin-1 and LC-3BII), as well as anti-apoptotic protein Bcl-2, increased the expression of pro-apoptotic protein Bax, and increased cyt c release, which indicated decrease in inflammation, metastasis, and autophagy with increase in apoptosis. Moreover, the combination of NPs decreased tumor burden and increased survival of Ehrlich’s ascites carcinoma (EAC)-bearing mice. [ABSTRACT FROM AUTHOR]

Published

2018

5. Hyaluronic acid grafted PLGA copolymer nanoparticles enhance the targeted delivery of Bromelain in Ehrlich’s Ascites Carcinoma.

Author

Bhatnagar, Priyanka, Pant, Aditya Bhushan, Shukla, Yogeshwer, Panda, Amulya, and Gupta, Kailash Chand

Subjects

*HYALURONIC acid, *NANOPARTICLES, *BROMELIN, *CELL-mediated cytotoxicity, *TUMOR growth, *DRUG delivery systems, *CANCER remission

Abstract

Rapidly increasing malignant neoplastic disease demands immediate attention. Several dietary compounds have recently emerged as strong anti-cancerous agents. Among, Bromelain (BL), a protease from pineapple plant, was used to enhance its anti-cancerous efficacy using nanotechnology. In lieu of this, hyaluronic acid (HA) grafted PLGA copolymer, having tumor targeting ability, was developed. BL was encapsulated in copolymer to obtain BL-copolymer nanoparticles (NPs) that ranged between 140 to 281 nm in size. NPs exhibited higher cellular uptake and cytotoxicity in cells with high CD44 expression as compared with non-targeted NPs. In vivo results on tumor bearing mice showed that NPs were efficient in suppressing the tumor growth. Hence, the formulation could be used as a self-targeting drug delivery cargo for the remission of cancer. [ABSTRACT FROM AUTHOR]

Published

2016

6. Photoprotective efficiency of PLGA-curcumin nanoparticles versus curcumin through the involvement of ERK/AKT pathway under ambient UV-R exposure in HaCaT cell line.

Author

Chopra, Deepti, Ray, Lipika, Dwivedi, Ashish, Tiwari, Shashi Kant, Singh, Jyoti, Singh, Krishna P., Kushwaha, Hari Narayan, Jahan, Sadaf, Pandey, Ankita, Gupta, Shailendra K., Chaturvedi, Rajnish Kumar, Pant, Aditya Bhushan, Ray, Ratan Singh, and Gupta, Kailash Chand

Subjects

*CURCUMIN, *NANOMEDICINE, *ANTIOXIDANTS, *PHARMACOLOGY, *BIODEGRADABLE materials, *MITOCHONDRIAL physiology

Abstract

Curcumin (Cur) has been demonstrated to have wide pharmacological window including anti-oxidant and anti-inflammatory properties. However, phototoxicity under sunlight exposure and poor biological availability limits its applicability. We have synthesized biodegradable and non-toxic polymer-poly (lactic-co-glycolic) acid (PLGA) encapsulated formulation of curcumin (PLGA-Cur-NPs) of 150 nm size range. Photochemically free curcumin generates ROS, lipid peroxidation and induces significant UVA and UVB mediated impaired mitochondrial functions leading to apoptosis/necrosis and cell injury in two different origin cell lines viz., mouse fibroblasts-NIH-3T3 and human keratinocytes-HaCaT as compared to PLGA-Cur-NPs. Molecular docking studies suggested that intact curcumin from nanoparticles, bind with BAX in BIM SAHB site and attenuate it to undergo apoptosis while upregulating anti-apoptotic genes like BCL2. Real time studies and western blot analysis with specific phosphorylation inhibitor of ERK1 and AKT1/2/3 confirm the involvement of ERK/AKT signaling molecules to trigger the survival cascade in case of PLGA-Cur-NPs. Our finding demonstrates that low level sustained release of curcumin from PLGA-Cur-NPs could be a promising way to protect the adverse biological interactions of photo-degradation products of curcumin upon the exposure of UVA and UVB. Hence, the applicability of PLGA-Cur-NPs could be suggested as prolonged radical scavenging ingredient in curcumin containing products. [ABSTRACT FROM AUTHOR]

Published

2016