Browsing by Author "Singh, Pushpendra"
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Item Flavonols as cancer preventive agents: Recent updates(Nova Science Publishers, Inc., 2021-06-20T00:00:00) Kumar, Shashank; Singh, PushpendraThis book describes primary results on the leading edge of in silico and in vitro cancer research and summarizes the anticancer activity of pharmacologically important flavonols such as quercetin, morin, kaempferol, fisetin, galangin, diosmetin, and cianidanol. Natural products are a prime source of lead compounds suitable for further modification during drug development. Cancer drug discovery is a risky, costly, and resource-consuming process. In the modern arena, molecular computer modeling in anticancer drug development is utilized to speed up hit identification and optimization of the pharmacological profile. The first chapter of this book deals with computer-aided drug discovery and anticancer drug design using pharmacological active flavonols. In further chapters, the authors discuss the in vitro and in vivo advancement in anticancer research on important flavonols such as quercetin, morin, kaempferol, fisetin, galangin, diosmetin, and cianidanol. Anticancer advancement research related to various cancers is summarized and discussed, giving special emphasis on the effect on apoptosis, migrations, and growth via various signaling pathways. The book encompasses the literature as well as target identification for the selected flavonols for their in silico anticancer potential. Moreover, it also contains experimentation results and discussion on the pharmacological properties, including ADME/T, of the flavonols. Overall, this book can lay a good basis for the subsequent rise for its application as a therapeutic drug in the near future. � 2021 by Nova Science Publishers, Inc. All rights reserved.Item High-throughput virtual screening, identification and in vitro biological evaluation of novel inhibitors of signal transducer and activator of transcription 3(Birkhauser Boston, 2015) Singh, Pushpendra; Bast, FelixSignal transducer and activator of transcription (STAT) family, encompassing protein molecules that function as a second messenger and transcription factor, are famously known to regulate a multitude of cellular processes including inflammation, cell proliferation, invasion, angiogenesis, metastasis and immune system homeostasis. STAT3 is one of the six members of a family of transcription factors. STAT3 has proved themselves to be interesting candidates for anticancer therapy as they are over-expressed in most cancer cells. Thus, we studied receptor-based molecular docking of STAT3 against natural compounds and further validations of lead molecules in an array of cancer cells. In the present study, we screened approximately 50,000 natural compounds from the IBS. All natural compounds were docked with the X-ray crystal structure of STAT3 (PDB; 1BG1) retrieved from the protein data bank by using Maestro 9.6 (Schr?dinger Inc). First, we performed high-throughput virtual screening of IBS against the SH2 domain of STAT3. Further, best 20 compounds that possess minimal Gscore along with 85 natural compounds that had been reported in published literature as having anticancer properties were selected, and molecular docking was performed using the XP (extra precision) mode of GLIDE. We analyzed Gscore and protein-ligand interactions of top ranking compounds. It was discovered in this study, compounds CID252682, CID5281670 (Morin), CID5281672 (Myricetin), CID72277 (Epigallocatechol) and CID65064 (Epigallocatechin Gallate, EGCG) yielded the excellent dock score with the STAT3 concluded with the help of docking-free energy. Moreover, IBS STOCK1N-43090, STOCK1N-66505, STOCK1N-54303, STOCK1N-44634, STOCK1N-45027, STOCK1N-73784, STOCK1N-69597, STOCK1N-73062, STOCK1N-81915 and STOCK1N-70844 have better docking-free energy. Further, we chose EGCG and myricetin compounds, and their effect on biological activity such as cell proliferation, oxidative stress, colony formation, mRNA expression of STAT3, and cell number was reported after the 48 h treatments in cancer cell lines. EGCG and myricetin reduce the STAT3 mRNA expression confirmed by RTPCR. Moreover, EGCG and myricetin reduce cell proliferation and ROS generation after 48 h treatments. Interestingly, our result also indicates that the reduction in potential for colony formation enhances anti-metastasis activity of EGCG and myricetin. The information obtained from our study assisted us in drawing a more lucid picture regarding the existence STAT3 natural compounds inhibitor on diverse cancer cells. ? 2015 Springer Science+Business Media.Item Homology modeling of chemokine CCR7, molecular docking, and in vitro studies evidenced plausible immunotherapeutic anticancer natural compounds(Birkhauser Boston, 2016) Singh, Pushpendra; Singh, Ravi Shankar; Rani, Alka; Bast, FelixThe chemokine receptor 7 is a G-protein coupled, receptors coordinates the migration of cancer cells towards CCL19 and CCL21 constitutively expressed lymphatic organs. Chemokine receptor 7 facilitates cancer progression by generating new lymphatic vessels that serve as conduits for tumor dissemination to lymph nodes. In this context, chemokine receptor 7 inhibitor recently caught an attention for cancer cell growth inhibitor. The 3-D crystalline structure of chemokine receptor 7 not available in protein data bank (PDB), first we predicted the 3-D structure of chemokine receptor 7 and then performed receptor-based molecular docking of chemokine receptor 7 against natural and marine compounds. Semiquantitative polymerase chain reaction (PCR) and quantitative real-time PCR were performed for mRNA expression of chemokine receptor 7 and glyceraldehyde 3-phosphate dehydrogenase (GAPDH) used as internal control. The best-docked compounds have been selected for chemokine receptor 7 inhibitors by optimal energy value (Gscore), types of interactions, and conformations. CID6441009, 42607750, 72276, 6711419, 56835050, 65064, 23663412, 72277, 643668, 54679285 compound have a better binding energy ?11.35, ?10.51, ?10.16, ?9.98, ?9.95, ?9.86, ?9.83, ?9.57, ?9.47, and ?9.45 respectively against chemokine receptor 7. Protein?ligand interactions profile highlighted that amino acid Glu45, Lys50, Arg54, Lys57, Trp114, Met260, Glu205, Gln227, Gln276, and Asp309 involved in the hydrophobic, hydrogen bonding, and ?-? stacking interactions play a central role at the active site. Moreover, treatment with the Epigallocatechin gallate led to down-regulation of mRNA expression of chemokine receptor 7 in HepG2 and PC3 cells. This molecular docking study recapitulates the docking free energy, protein?ligands interactions profile, pharmacokinetic, and the pharmacodynamic parameter of lead molecules, which are extremely helpful to improve the activity of natural and marine compounds against chemokine receptor 7. ? 2016, Springer Science+Business Media New York.Item IMPACT OF PERSONALIZED MEDICINE IN CANCER(Nova Science Publishers, 2017) Singh, Pushpendra; Rani, Alka; Bast, FelixPersonalized medicine aims to customize therapeutic care based on a person's unique genetic profile. Physicians have tailored care based on individual's health history and the environment. However, the decoding of the human genome in 2003 was an important step towards breakthroughs in personalized medicine, as a clinical care that takes benefits of molecular tools to facilitate highly specific health care based on individual's unique genomic and molecular characteristics. Pharmacogenetics refers to a single gene that influences drug metabolism. However, pharmacogenomics encompasses all genes in the genome that may determine the drug response. Pharmacogenomics enables the improved understanding of disease pathogenesis through genomics research, via identification of new biomarkers for cancer diagnosis. Pharmacogenetics and pharmacogenomics are around to revolutionize the aspect of medicine; yet, many challenges stand in the way. Hike in the cost of genotyping make genetic profiling less attractive and its clinical implementation is also lagging far behind. This book chapter presents an overview of the opportunities and challenges that influence the participation of personalized approach of giving the right drug at the right dose to the right patient.Item In Silico and In Vitro Studies Evidenced Anticancer Natural Compounds, a Targeting Chemokine Receptor(iMedPub, 2016) Singh, Pushpendra; Bast, FelixChemokines are a family of small chemotactic cytokines, which play a significant role in lymphocyte homing to secondary lymphoid organs in addition to tumor growth and metastasis. Thus, inhibition of chemokine receptor caught attention for anticancer treatment strategy. We studied molecular docking of chemokines receptor CXCR2, CXCR4, and CCR5 against natural and marine compounds. All selected natural and marine compounds were docked with the X-ray crystal structure of CXCR2, CXCR4, and CCR5 retrieved from the PDB by using Maestro 9.6. Molecular docking was executed by the XP (extra precision) mode of GLIDE. On the basis of Gscore and protein-ligand interactions, top-ranking compounds were outlined. The docking study carried out to summarize the various Gscore, hydrophobic, electrostatic bond, hydrogen bond, π-cation and π-π interactions and oversee the protein-ligand interactions. Moreover, effect of Epigallocatechin-3-gallate (EGCG) on biological activity such as mRNA expression (CXCR2, CCR5, and Bid), cell proliferation, ROS, and cell-migration was reported after the 48 hrs treatments in MCF-7 cells. The RT-PCR densitometric bands analysis showed that compound EGCG reduced the mRNA expression of CXCR2, CCR5 and increased the Bid at 40 μM and 80 μM concentration. Moreover, EGCG significantly reduced cell proliferation, ROS generation and cell-migration after 48 hours treatments.Item In silico molecular docking study of natural compounds on wild and mutated epidermal growth factor receptor(Birkhauser Boston, 2014) Singh, Pushpendra; Bast, FelixThe role played by overexpression of tyrosine kinase epidermal growth factor receptor (EGFR), the transmembrane receptor central to numerous cellular processes comprising cell migration, adhesion, apoptosis, and cell proliferation, has been highlighted in various cancers such as prostate, breast, lung, and ovarian cancers as well as in mutations in the EGFR kinase domain. Although many therapeutic approaches have targetted EGFR, the mutations occurring in the EGFR kinase domain including L858 EGFR and T790/L858R had led to the amplification of EGFR signals, consequently leading to increased cell proliferation and cell growth. The strategies involving the inhibition of EGFR L858 and T790M have been accredited with limited achievement in addition to being associated with unwanted adverse effects as a result of crosstalk of wild-type EGFR. All current EGFR tyrosine kinase inhibitors have been identified as ATP competitive inhibitors of wild-type EGFR possessing aniline and quinazoline moiety on the ligands skeleton. Our results obtained by performing molecular docking study on Maestro 9.3 molecular docking suite indicated that CID5280343 possesses better energy conformation against wild-type EGFR as well as two mutated EGFR. Moreover, it was discovered in this study that the natural compounds CID72276, CID5280445, CID441794, and CID72277 and InterBioScreen's library STOCK1N-78657, STOCK1N-78976, and STOCK1N-78847 have better binding conformation against gatekeeper T790M mutated EGFR concluded to be brought about by means of flexible ligands/receptor-based molecular docking protocol. Miraculous features of these compounds are their various pharmacokinetic and pharmacodynamic parameters which were found to be satisfactory as drug-like molecules. This molecular docking study also summarizes docking free energy, protein-ligands interaction profile, and pharmacokinetic and pharmacodynamic parameter of lead molecules which were tremendously helpful in enhancing the activity of these natural compounds against EGFR. ? 2014 Springer Science+Business Media New York.Item INFLUENCE OF INSULIN AND METFORMIN ON PROSTATE CANCER(Nova Science Publishers, 2017) Singh, Pushpendra; Bast, Felix; Kumar, Shashank; Saini, Khem ChandDietary habit and hormonal factor play a significant role in prostate cancer deregulation in addition to genetic and environmental factor. Nonandrogenic growth factor like insulin and insulin growth factor are influences the prostate cancer initiation and progression. Insulin and Insulin-like growth factor regulate various metabolic pathways, cell growth, cellular proliferation and apoptosis. Various epidemiological results point out that insulin not only increased the risk of cardiovascular, macrovascular, and microvascular complications but also at significantly increase the risk of various cancers. The use of metformin, the usually approved drug for type 2 diabetes, was continually linked with the decreased risk of the incidence of a variety of cancers. More than 60 clinical trials of metformin being tested as a treatment for various types of cancer, including breast, colon, prostate, endometrial, and pancreatic cancer. The ability of metformin to lower circulating insulin may be predominantly imperative for the treatment of cancers. Moreover, metformin inhibiting mammalian target of rapamycin promoted cell growth signaling. In this chapter, the confirmation behind a role for metformin in cancer therapy and its prospective molecular mechanisms of action are discussed.Item Insilco Molecular Docking Study of Natural Compounds On Wild and Mutated Epidermal Growth Factor Receptor(Springer, 2014) Singh, Pushpendra; Bast, FelixThe role played by overexpression of tyrosine kinase epidermal growth factor receptor (EGFR), the transmembrane receptor central to numerous cellular processes comprising cell migration, adhesion, apoptosis, and cell proliferation, has been highlighted in various cancers such as prostate, breast, lung, and ovarian cancers as well as in mutations in the EGFR kinase domain. Although many therapeutic approaches have targetted EGFR, the mutations occurring in the EGFR kinase domain including L858 EGFR and T790/L858R had led to the amplification of EGFR signals, consequently leading to increased cell proliferation and cell growth. The strategies involving the inhibition of EGFR L858 and T790M have been accredited with limited achievement in addition to being associated with unwanted adverse effects as a result of crosstalk of wild-type EGFR. All current EGFR tyrosine kinase inhibitors have been identified as ATP competitive inhibitors of wild-type EGFR possessing aniline and quinazoline moiety on the ligands skeleton. Our results obtained by performing molecular docking study on Maestro 9.3 molecular docking suite indicated that CID5280343 possesses better energy conformation against wild-type EGFR as well as two mutated EGFR. Moreover, it was discovered in this study that the natural compounds CID72276, CID5280445, CID441794, and CID72277 and InterBioScreen's library STOCK1N-78657, STOCK1N-78976, and STOCK1N-78847 have better binding conformation against gatekeeper T790M mutated EGFR concluded to be brought about by means of flexible ligands/receptor-based molecular docking protocol. Miraculous features of these compounds are their various pharmacokinetic and pharmacodynamic parameters which were found to be satisfactory as drug-like molecules. This molecular docking study also summarizes docking free energy, protein-ligands interaction profile, and pharmacokinetic and pharmacodynamic parameter of lead molecules which were tremendously helpful in enhancing the activity of these natural compounds against EGFR.Item Insilco Molecular Docking Study Of Natural Compounds On Wild and Mutated Epidermal Growth Factor Receptor.(2014) Singh, Pushpendra; Bast, Felix.Item Insulin receptor (IR) and insulin-like growth factor receptor 1 (IGF-1R) signaling systems: Novel treatment strategies for cancer(Humana Press Inc., 2014) Singh, Pushpendra; Alex, Jimi Marin; Bast, FelixInsulin and insulin-like growth factor (IGF) signaling system, commonly known for fine-tuning numerous biological processes, has lately made its mark as a much sought-after therapeutic targets for diabetes and cancer. These receptors make an attractive anticancer target owing to their overexpression in variety of cancer especially in prostate and breast cancer. Inhibitors of IGF signaling were subjected to clinical cancer trials with the main objective to confirm the effectiveness of these receptors as a therapeutic target. However, the results that these trials produced proved to be disappointing as the role played by the cross talk between IGF and insulin receptor (IR) signaling pathways at the receptor level or at downstream signaling level became more lucid. Therapeutic strategy for IGF-1R and IR inhibition mainly encompasses three main approaches namely receptor blockade with monoclonal antibodies, tyrosine kinase inhibition (ATP antagonist and non-ATP antagonist), and ligand neutralization via monoclonal antibodies targeted to ligand or recombinant IGF-binding proteins. Other drug-discovery approaches are employed to target IGF-1R, and IR includes antisense oligonucleotides and recombinant IGF-binding proteins. However, therapies with monoclonal antibodies and tyrosine kinase inhibition targeting the IGF-1R are not evidenced to be satisfactory as expected. Factors that are duly held responsible for the unsuccessfulness of these therapies include (a) the existence of the IR isoform A overexpressed on a variety of cancers, enhancing the mitogenic signals to the nucleus leading to the endorsement of cell growth, (b) IGF-1R and IR that form hybrid receptors sensitive to the stimulation of all three IGF axis ligands, and (c) IGF-1R and IR that also have the potential to form hybrid receptors with other tyrosine kinase to potentiate the cellular transformation, tumorigenesis, and tumor vascularization. This mini review is a concerted effort to explore and fathom the well-recognized roles of the IRA signaling system in human cancer phenotype and the main strategies that have been so far evaluated to target the IR and IGF-1R. ? 2013 Springer Science+Business Media New York.Item Molecular Docking Study of Natural Compounds against Non Receptor Protein Tyrosine Kinases Src(Pharma Scholars Library, 2015) Bast, Felix; Singh, PushpendraNon-receptor tyrosine kinases Src family plays an important role in signal transduction induced by diverse extracellular stimulus, including cytokine, and growth factors. Overactivity or overexpression of the non-receptor tyrosine kinase Src is involved in the growth, development and progression of various human cancers and their inhibitors are under intensive investigations as novel anti-cancer agents. Therefore, we studied receptor-based molecular docking of src against natural compounds. Each Selected compounds docked with the X-ray crystal structure of Src (PDB; 3EL7). The best-docked compounds have been elected for target by optimal energy value, types of interactions, and conformations. STOCK1N-75795, STOCK1N-80087, STOCK1N-72227, STOCK1N-79428, STOCK1N-72232, STOCK1N-72129, and STOCK1N-72552 compound have a better binding energy as well as binding conformation against src. Foremost, STOCK1N-80087, STOCK1N-72227, and STOCK1N-72232 are their excellent QPlogPo/w, CIQPlogS, QPlog HERG K+ channels, QPPCaco, QPlogBB, QPPMDCK, QPlogKP, QPlogKhsa and percentage of human oral absorption values which satisfy the Lipinski’s Rule of Five. This molecular docking study recapitulates docking free energy, protein ligands interaction profile, pharmacokinetic, and pharmacodynamic parameter of lead molecules, which are tremendously helpful to improve activity of natural compounds against src.Item Multitargeted molecular docking study of plant-derived natural products on phosphoinositide-3 kinase pathway components(Springer, 2014) Bast, Felix; Singh, PushpendraPhosphoinositide-3 kinase (PI3K) signaling pathway comprises of a cornucopia of protein molecules capable of regulating numerous cellular events, including cell survival, cell cycle regulation, angiogenesis, and apoptosis. Deregulation of PI3K downstream signaling is a phenomenon commonly seen in various types of cancer and also held responsible for poor prognosis and resistance to chemotherapy. Targeting PI3K signaling pathway has become a new and promising strategy in combating cancer. In the present study, PI3K signaling components PI3K, PDK1, Akt, and mTOR were chosen and 51 natural compounds along with 17 reference compounds were selected as ligand with the aid of PubMed published literature search. Ligands were docked to protein molecules by using Maestro 9.3 (Schrödinger Inc.). It was discovered in this study that compounds myricetin, quercetin, morin, luteolin, and emodin yielded excellent dock score with the proteins concluded with the help of docking free energy. The remarkable feature of these compounds are their various pharmacodynamics and pharmacokinetic characteristics, many of which are in accordance with the “Lipinski’s Rule of five”. The docking study carried out is an endeavor to portray the docking of these compounds with the proteins, to summarize the various Gscore, hydrogen bond, electrostatic bond, and to chart out various factors that are decisive for and also govern the protein–ligand interactions.Item Natural Compounds Are Smart Players in Context to Anticancer Potential of Receptor Tyrosine Kinases: An In Silico and In Vitro Advancement(Springer, 2017) Singh, Pushpendra; Kumar, Shashank; Bast, FelixCancer is the ruling cause of mortality worldwide. Chemotherapeutic toxicity and drug resistance have provided impulsion for the formulation of new anticancer agents. Receptor tyrosine kinases (RTKs) are the most activated cell surface receptors for copious polypeptide growth factors, cytokines, and hormones that play a considerable role in cancer initiation, promotion, and progression. Natural products are a prime source of new anticancer drugs and their leads. The objective of computer-aided drug design (CADD) is to enhance the set of compounds with prudent active drug-like properties and eliminate inactive, toxic, poor absorption, distribution, metabolism, and excretion toxicity (ADME/T) compounds. In the present chapter, in silico advancement of anticancer natural compounds and molecular mechanisms of action of flavonoids, viz., genistein, myricetin, quercetin, luteolin, morin, kaempferol, catechin, and epigallocatechin gallate (EGCG), on RTK and PI3K signaling pathway attributing to their potential anticancer activity have been discussed.Item Natural Compounds Targeting Transforming Growth Factor-β: In Silico and In Vitro Study(ejBio, 2016) Singh, Pushpendra; Bast, Felix; Singh, Ravi ShankarInhibition of the tumor-promoting effects of transforming growth factor beta receptor (TGFβR) in carcinogenesis provides a better therapeutic intervention. Various natural compounds, inhibitors of TGFβR have been used for in vitro and in vivo anticancer study. Although very few TGFβR inhibitors are now intensifying in preclinical studies. In this study our aim to investigate TGFβR1, TGFβR2 and TAK1 inhibitor by using molecular docking and in vitro study. Our result revealed that some compounds have better docking energy. Moreover, the effect of two lead molecules epigallocatechin gallate (EGCG) and myricetin on the mRNA expression of TGFβR1 was reported after the 48 hrs treatments in HepG2 and PC3 cancer cell lines. The RT-PCR showed that compound EGCG and myricetin reduced the mRNA expression of TGFβR1 at 80 μM concentration. This molecular docking study provides a better understanding of binding of compounds to the active site of proteins and to summarize the various binding energy, hydrophobic, hydrogen, an electrostatic bond that are decisive for the protein-ligand interactions. Further experimental work will be required for validation of our results.Item Screening and biological evaluation of myricetin as a multiple target inhibitor insulin, epidermal growth factor, and androgen receptor; In silico and in vitro(Springer New York LLC, 2015) Singh, Pushpendra; Bast, FelixMyricetin is a naturally omnipresent benzo-?-pyrone flavonoids derivative; has potent anticancer activity. Receptor tyrosine kinases family provides the decisive role in cancer initiation and progression. These receptors have recently caught the attention of the researchers as an attractive target to combat cancer, owing to the evidences endorsed their over-expression on cancer cells. This study is a concerted effort to explore the potent and specific multi-targeted inhibitor against RTKs and AR\ER employing molecular docking approach. IR, IGF1R, EGFR, VEGFR1, VEGFR2, and AR\ER were chosen as a protein and natural compounds as a ligand. Molecular docking procedure followed by using Maestro 9.6 (Schr?dinger Inc). All natural compounds were docked with the X-ray crystal structures of selected proteins by employing grid-based ligand docking with energetics Maestro 9.6. IBS natural compounds docked with each selected protein molecules by using GLIDE high throughput virtual screening. On the basis of Gscore, we selected 20 compounds from IBS (50,000 compounds) along with 68 anticancer compounds from published literature for GLIDE extra precision molecular docking. Calculated docking free energy yielded the excellent dock score for the myricetin when docked with proteins EGFR, IR, and AR\ER. Protein-ligand interactions profile highlighted that the lipophilic, hydrogen bonding and ?-? stacking interactions play a central role in protein-ligand interactions at the active site. The results of MTT assay reveal that the myricetin inhibit the viability and proliferation of cancer cells in a dose-dependent manner. Treatment with the myricetin led to down-regulation of mRNA expression of EGFR, IR, mTOR, and Bcl-2. Although, further in vitro and in vivo experimental studies are required for the experimental validation of our findings. ? 2015 Springer Science+Business Media New York.Item Screening of multi-targeted natural compounds for receptor tyrosine kinases inhibitors and biological evaluation on cancer cell lines, in silico and in vitro(Humana Press Inc., 2015) Singh, Pushpendra; Bast, FelixReceptors for growth factors encompass within the superfamily of receptor tyrosine kinases and are known to regulate numerous biological processes including cellular growth, proliferation, metabolism, survival, cell differentiation and apoptosis. These receptors have recently caught the attention of the researchers as an attractive target to combat cancer owing to the evidence suggesting their over-expression in cancer cells. Therefore, we studied receptor-based molecular docking of IR (PDB; 3ETA), IGF1R (PDB; 1K3A), EGFR (PDB; 1M17), VEGFIR (PDB; 3HNG), and VEGFIIR (PDB; 2OH4) against natural compounds. Further, in vitro investigation of the biological effect of lead molecules in an array of cancer cell lines was done. All selected?natural compounds were docked with the X-ray crystal structure of selected protein by employing GLIDE (Grid-based Ligand Docking with Energetics) Maestro 9.6. InterBioScreen natural compounds docked with each selected protein molecules by using GLIDE high throughput virtual screening. On the basis of Gscore, we select 20 compounds along with 68 anticancer compounds for GLIDE extra precision molecular docking. It was discovered in this study that compound epigallocatechin gallate (EGCG) yielded magnificent Gscore with IGF1R (PDB; 1K3A) and VEGFIIR (PDB; 2OH4), and protein?ligand interactions are chart out. Effect of EGCG on biological activity such as mRNA expression of selected protein, cell proliferation, oxidative stress, and cell migration was reported after the 48?h treatments in cancer cell lines. The RT-PCR densitometric bands analysis showed that compound EGCG reduced the mRNA expression of IGF1R, VEGFIIR, and mTOR at 80??M concentration. Moreover, EGCG significantly reduced cell proliferation and ROS generation after 48?h treatments. Our result also indicated a reduction in the potential for cell migration that might show in vivo anti-metastasis activity of EGCG. ? 2015, Springer Science+Business Media New York.Item Screening of natural compounds for receptor tyrosine kinase inhibitors: in silico and in vitro investigation in cancer cell lines(Central University of Punjab, 2016) Singh, Pushpendra; Bast, FelixItem To study the effects of insulin and metformin on pc-3 cell line(Central University of Punjab, 2016) Singh, Pushpendra; Bast, FelixDietary habits, genetic factors, hormonal factors and environmental factors are the independent risk factors for prostate cancer as well as diabetes. Androgen is the primary growth factor for the prostate cancer initiation and progression, however, non androgen peptide growth factor like insulin and insulin growth factor also involved in the prostate cancer as well as diabetes. Insulin and insulin growth factor are peptide that regulates metabolism, growth, cellular proliferation and apoptosis. The anti-diabetic drug metformin is rapidly emerging as a potential anti-cancer agent that improves insulin homeostasis and decreased growth and cellular proliferation of the prostate cancer cell line. Thus it is necessary to understand the growth promoting role of insulin on prostate cancer cell line and the possible influences of metformin on the proliferation of prostate cancer cell line in the presence and absence of insulin has been studied.