Botany - Research Publications

Permanent URI for this collectionhttps://kr.cup.edu.in/handle/32116/32

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    ANALYSIS OF MICRORNA SIGNATURES AS BIOMARKER TO INVESTIGATE INTERLINK BETWEEN TYPE 2 DIABETES AND BREAST CANCER
    (Central University of Punjab, 2018) Sharma, Prateek; Kumar, Sanjeev
    Type 2 diabetes and breast cancer are two heterogeneous, multifactorial, chronic health problems involving several overlapping risk factors. Studies have suggested that type 2 diabetes is associated with 10-20% excessive relative risk of breast cancer. Evidence indicates link between type 2 diabetes and breast cancer, through insulin resistance and hyperinsulinemia. Numerous substantial evidence pointing towards the potential efficacy of antidiabetic metformin as anticancer therapeutics. MicroRNAs are endogenous, small non-coding RNA molecules regulating protein-coding gene expression and participate in nearly all the events of life. These small RNA molecules can have diagnostic or prognostic value, as microRNA expression profiles reflect disease origin, stage and other pathological factors. We hypothesized that there might be several microRNAs which commonly function in the “origin of type 2 diabetes to progression towards breast cancer.” Such common microRNAs can act via the related signalling pathways which may provide the critical insight into the better understanding of these diseases. The present study is aimed to investigate the interlinking between type 2 diabetes and breast cancer through microRNA signatures. Methods: In vitro cell experiments (using breast cancer cell lines MCF-7, MDA-MB-231, & T47D and pancreatic beta insulinoma cell lines MIN6 and RIN-5F) referred as MTT proliferation, trypan blue exclusion test, NBT assay, colony formation analysis, and scratch assay. Reactive oxygen species (ROS) assays (DCFH-DA and DHE) along with fluorescence microscopy (DAPI staining, Acridine orange + Ethidium bromide dual staining, JC1 staining) were used for apoptotic parameters. Insulin release in pancreatic beta cell lines was measured by ELISA. mRNA expression levels of Bax, Bcl-2, MMP-2, MMP-9, SOD 1, SOD 2, SOD 3, were quantified by qRT-PCR. Four common microRNAs- let 7a, miR-21, miR-155, miR-375 expression profiling in both breast cancer cell lines and pancreatic cell lines was performed by relative quantification real time analysis. Results: Insulin acts as a potential mitogenic factor accelerating the proliferation of breast cancer cells. On the other hand, metformin inhibits growth, proliferation and v clonogenic potential of breast carcinoma cells. ROS levels in breast cancer cells were significantly reduced by metformin by up-regulating SOD isoforms expression. Insulin increased the ROS to a very small limit. Metformin activates apoptosis by inducing mitochondrial dysfunction, upregulating Bax and downregulating Bcl-2. Migration is strongly suppressed by metformin by regulating matrix metalloproteinase (MMP-2 and MMP-9). Oncogenic miR-21 and miR-155 were downregulated by metformin, significantly correlated with reduced metastasis. The results of our study suggest that both MIN6 and RIN-5F cells show a significant differential pattern of proliferation, insulin secretion, and microRNA expression pattern. RIN-5F beta cells were found to be highly refractory to glucose-stimulated insulin secretion. However, metformin negatively regulates glucose-stimulated insulin release in both MIN6 and RIN-5F. In MIN6 cells, levels of microRNA-375 and let-7a were significantly up- & down-regulated by metformin at normal-glucose and high glucose culture conditions respectively whereas in RIN-5F both were significantly down-regulated. Conclusions: Our data supports that metformin plays a pivotal role in the modulation of the antioxidant system including SOD machinery. Our results indicate that metformin inhibit breast cancer cell proliferation by inducing apoptosis via mitochondrial signalling. Furthermore, emerging view from this study is that microRNAs (let-7a, mir-21, miR-155 and miR- 375) are involved in the process of disease (type 2 diabetes and breast cancer) development, and there is the potential utility of microRNAs as effective biomarker for diagnostic and prognostic application in type 2 diabetes and breast cancer.
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    INFLUENCE OF INSULIN AND METFORMIN ON PROSTATE CANCER
    (Nova Science Publishers, 2017) Singh, Pushpendra; Bast, Felix; Kumar, Shashank; Saini, Khem Chand
    Dietary 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. 
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    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, Felix
    Myricetin 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.
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    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, Felix
    Insulin 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.