School Of Basic And Applied Sciences

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    Molecular mechanisms of action of tocotrienols in cancer: Recent trends and advancements
    (MDPI AG, 2019) Aggarwal, V; Kashyap, D; Sak, K; Tuli, H.S; Jain, Aklank; Chaudhary, A; Garg, V.K; Sethi, G; Yerer, M.B.
    Tocotrienols, found in several natural sources such as rice bran, annatto seeds, and palm oil have been reported to exert various beneficial health promoting properties especially against chronic diseases, including cancer. The incidence of cancer is rapidly increasing around the world not only because of continual aging and growth in global population, but also due to the adaptation of Western lifestyle behaviours, including intake of high fat diets and low physical activity. Tocotrienols can suppress the growth of different malignancies, including those of breast, lung, ovary, prostate, liver, brain, colon, myeloma, and pancreas. These findings, together with the reported safety profile of tocotrienols in healthy human volunteers, encourage further studies on the potential application of these compounds in cancer prevention and treatment. In the current article, detailed information about the potential molecular mechanisms of actions of tocotrienols in different cancer models has been presented and the possible effects of these vitamin E analogues on various important cancer hallmarks, i.e., cellular proliferation, apoptosis, angiogenesis, metastasis, and inflammation have been briefly analyzed. © 2019 by the authors. Licensee MDPI, Basel, Switzerland.
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    Vitex negundo and its medicinal value
    (Springer, 2018) Gill, Balraj Singh; Mehra, Richa; Navget; Kumar, Sanjeev
    Natural products are rich in several potent bioactive compounds, targeting complex network of proteins involved in various diseases. Vitex negundo (VN), commonly known as “chaste tree”, is an ethnobotanically important plant with enormous medicinal properties. Different species of Vitex vary in chemical composition, thus producing different phytochemicals. Several bioactive compounds have been extracted from leaves, seeds, roots in form of volatile oils, flavonoids, lignans, iridoids, terpenes, and steroids. These bioactive compounds exhibit anti-inflammatory, antioxidant, antidiabetic, anticancer, antimicrobial. VN is typically known for its role in the modulation of cellular events like apoptosis, cell cycle, motility of sperms, polycystic ovary disease, and menstrual cycle. VN, reportedly, perturbs many cancer-signaling pathways involving p-p38, p-ERK1/2, and p-JNK in LPS-elicited cells, N-terminal kinase (JNK), COX-1 pathways, MAPK, NF-κB, tumor necrosis factor α (TNF-α), Akt, mTOR, vascular endothelial growth factor, hypoxia-inducible factor (HIF-1α). Several bioactive compounds obtained from VN have been commercialized and others are under investigation. This is the first review presenting up-to-date information about the VN, its bioactive constituents and their mode of action.
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    Evaluation of chemical composition and groundwater and anticancer properties of citrullus colocynthis
    (Central University of Punjab, 2014) Kaur, Jatinder; Bhardwaj, Pankaj
    Colocynth (Citrullus colocynthis (L.)) is medicinal plant of family Cucurbitaceae which is the native of Turkey. This plant has been used as anti-inflammatory agent, for the treatment of jaundice, skin infections, and urinary diseases from ancient times. It is anti-diabetic, anti-microbial, anti-parasitic, antifungal and anti-oxidant in nature and thought to possess anti-cancer properties also. There is no proper study available regarding its anticancer nature. The aim of the study was to estimate the chemical composition of C. colocynthis fruit and the effect of different extracts prepared from C. colocynthis pulp and seeds on various cancer cell lines. These extracts were found to contain number of secondary metabolites which may further have useful and healing properties. When cancer cells were treated with different prepared extracts, the cell viability of various cancer cells was reduced effectively. Effect of p53 gene was also analysed by using intact p53 as well as p53 mutant cell lines. Antioxidant activity of C. colocynthis was also determined by performing H2DCFDA. Assessment of various antioxidant enzymes such as Catalase, SOD, and Glutathione reductase was also done and found to be present in this fruit. We also analysed the protective effect of C. colocynthis by first treating the cells with pesticides and then with colocynthis extracts. Results indicate that C. colocynthis neutralized the harmful effect of pesticides. The results obtained are encouraging and confirm the value of the use of C. colocynthis as an anticancer agent for fighting against various cancers. It may be helpful to find the exact component responsible for the protective action of C. colocynthis.
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    Metformin inhibits human breast cancer cell growth by promoting apoptosis via a ROS-independent pathway involving mitochondrial dysfunction: pivotal role of superoxide dismutase (SOD)
    (Springer, 2018) Sharma, Prateek; Kumar, Sanjeev
    Purpose Despite a growing body of evidence indicating a potential efficacy of the anti-diabetic metformin as anti-cancer agent, the exact mechanism underlying this efficacy has remained largely unknown. Here, we aimed at assessing putative mechanisms associated with the ability of metformin to reduce the proliferation and migration of breast cancer cells. Methods A battery of in vitro assays including MTT, colony formation, NBT and scratch wound healing assays were performed to assess the viability, proliferation, anti-oxidative potential and migration of breast cancer-derived MCF-7, MDA-MB-231 and T47D cells, respectively. Reactive oxygen species (ROS) assays along with fluorescence microscopy were used to assess apoptotic parameters. Quantification of SOD, Bcl-2, Bax, MMPs, miR-21 and miR-155 expression was performed using qRT-PCR. Results We found that metformin inhibited the growth, proliferation and clonogenic potential of the breast cancer-derived cells tested. ROS levels were found to be significantly reduced by metformin and, concomitantly, superoxide dismutase (SOD) isoforms were found to be upregulated. Mitochondrial dysfunction was observed in metformin treated cells, indicating apoptosis. In metastatic MDA-MB-231 cells, migration was found to be suppressed by metformin through deregulation of the matrix metalloproteinases MMP-2 and MMP-9. The oncogenic microRNAs miR-21 and miR-155 were found to be downregulated by metformin, which may be correlated with the suppression of cell proliferation and/or migration. Conclusions Our data indicate that metformin may play a pivotal role in modulating the anti-oxidant system, including the SOD machinery, in breast cancer-derived cells. Our observations were validated by in silico analyses, indicating a close interaction between SOD and metformin. We also found that metformin may inhibit breast cancer-derived cell proliferation through apoptosis induction via the mitochondrial pathway. Finally, we found that metformin may modulate the pro-apoptotic Bax, anti-apoptotic Bcl-2, MMP-2, MMP-9, miR-21 and miR-155 expression levels. These findings may be instrumental for the clinical management and/or (targeted) treatment of breast cancer.
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    Geminin a multi task protein involved in cancer pathophysiology and developmental process: A review
    (Elsevier B.V., 2016) Kushwaha, Prem Prakash; Rapalli, Krishna Chaitanya; Kumar, Shashank
    DNA replicates in a timely manner with each cell division. Multiple proteins and factors are involved in the initiation of DNA replication including a dynamic interaction between Cdc10-dependent transcript (Cdt1) and Geminin (GMNN). A conformational change between GMNN-Cdt1 heterotrimer and heterohexamer complex is responsible for licensing or inhibition of the DNA replication. This molecular switch ensures a faithful DNA replication during each S phase of cell cycle. GMNN inhibits Cdt1-mediated minichromosome maintenance helicases (MCM) loading onto the chromatin-bound origin recognition complex (ORC) which results in the inhibition of pre-replication complex assembly. GMNN modulates DNA replication by direct binding to Cdt1, and thereby alters its stability and activity. GMNN is involved in various stages of development such as pre-implantation, germ layer formation, cell commitment and specification, maintenance of genome integrity at mid blastula transition, epithelial to mesenchymal transition during gastrulation, neural development, organogenesis and axis patterning. GMNN interacts with different proteins resulting in enhanced hematopoietic stem cell activity thereby activating the development-associated genes' transcription. GMNN expression is also associated with cancer pathophysiology and development. In this review we discussed the structure and function of GMNN in detail. Inhibitors of GMNN and their role in DNA replication, repair, cell cycle and apoptosis are reviewed. Further, we also discussed the role of GMNN in virus infected host cells. ? 2016 Elsevier B.V. and Soci?t? Fran?aise de Biochimie et Biologie Mol?culaire (SFBBM)
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    Ganoderma lucidum targeting lung cancer signaling: A review
    (SAGE Publications Ltd, 2017) Gill, Balraj Singh; Navgeet; Kumar, Sanjeev; Gill, B.S.; Navgeet, Kumar, S.
    Lung cancer causes huge mortality to population, and pharmaceutical companies require new drugs as an alternative either synthetic or natural targeting lung cancer. The conventional therapies cause side effects, and therefore, natural products are used as a therapeutic candidate in lung cancer. Chemical diversity among natural products highlights the impact of evolution and survival of fittest. One such neglected natural product is Ganoderma lucidum used for promoting health and longevity for a longer time. The major bioconstituents of G. lucidum are mainly terpenes, polysaccharides, and proteins, which were explored for various activities ranging from apoptosis to autophagy. The bioconstituents of G. lucidum activate plasma membrane receptors and initiate various downstream signaling leading to nuclear factor-?B, phosphoinositide 3-kinase, Akt, and mammalian target of rapamycin in cancer. The bioconstituents regulate the expression of various genes involved in cell cycle, immune response, apoptosis, and autophagy in lung cancer. This review highlights the inextricable role of G. lucidum and its bioconstituents in lung cancer signaling for the first time. ? The Author(s) 2017.
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    Ganoderic acid modulating TNF and its receptors: in silico and in vitro study
    (Springer, 2017) Gill, Balraj Singh; Navgeet; Kumar, Sanjeev
    Cancer is a multifactorial disease with a network of genes causing genetic alterations. The sophisticated techniques in molecular biology revealed different cancer pathway, but their mechanistic approach is still shrouded. Tumor necrosis factor and TNF-related apoptosis-inducing ligand receptors (DR5) emerged as potential target drug for the cancer therapy. Among natural products basidiomycete fungus, Ganoderma lucidum and its constituents endowed with a plethora of activities modulating signaling in cancer. Ganoderic acid, a triterpene with lanosteroidal skeleton play an inextricable role in modulating signaling cascades in various mitogenic pathways. In the present study, receptor-based molecular docking was performed to study the dynamic behavior of the docked complexes and the molecular interactions between ganoderic acid and its isoforms with tumor necrosis factor and its receptor (DR5). The top scoring compounds were compared with the already documented natural inhibitor of tumor necrosis factor, DR5-curcumin, catechin, bupropion, pentoxyphyllin for their binding affinity and other absorption, distribution, metabolism, excretion, and toxicity properties. Ganoderic acid A interact more promising as compared with other isoforms with GScore (−9.858 (kcal/mol), Lipophilic EvdW (−1.7), H Bond (−0.9), Glide emodel (−40.5) with the involvement of Tyr 151, Leu 120 and Gln 149 residues during binding with tumor necrosis factor. During docking of ganoderic acid with DR5, ganoderic acid A exhibits GScore (−8.7), HBond (−2.9), Glide emodel (−30.0) with the involvement of hydrogen bonding inMet99, Arg101, Pro97, Glu98 residues. Natural inhibitors already documented exhibit low-binding energy and other docking parameters, which have an edge of ganoderic acid A to tumor necrosis factor and DR5. Ganoderic acid A efficiently inhibits the proliferation, viability, and intracellular reactive oxygen
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    New approaches to target cancer stem cells: Current scenario
    (2014) Insan, Mayank Bashyal; Jaitak, Vikas; Insan, M.B.; Jaitak, V.
    Resistance towards chemotherapy and radiotherapy as well as relapse of cancer is the major obstacle in the treatment of cancer. The main factor behind is cancer stem cells (CSCs) which are more resistant to conventional chemotherapy, radiotherapy and are quite able to regenerate whole new tumor again if remain alive during treatment. Targeting CSCs along with actively dividing cancer cells may significantly contribute to the solution of the problem of resistance and relapse. Various approaches are implemented to eradicate CSCs which include CSC markers specific compounds, Drugs which disturb niche and various inhibitors/modulators of signaling pathways. Hedgehog (Hh), Wnt and Notch pathways are modulated/inhibited using various agents and shown beneficial results in multiple forms of cancer. Many inhibitors/modulators of these pathways have been entered in the clinical trials. MicroRNAs have also been developed as anti CSCs agents. In this review, we have covered current status of CSC targeting therapy based on CSC markers, CSC niche, Hedgehog, Wnt, Notch pathway along with MicroRNA based targeting strategies and possibility of implementation multi-targeted anti-CSC therapy for the better outcome of the results. ? 2014 Bentham Science Publishers.