Vikram Singh scite author profile

DNA methylation is an epigenetic modification involved in gene expression regulation. In cancer, the DNA methylation pattern becomes aberrant, causing an array of tumor suppressor genes to undergo promoter hypermethylation and become transcriptionally silent. Reexpression of methylation silenced tumor suppressor genes by inhibiting the DNA methyltransferases (DNMT1, DNMT3A, and DNMT3B) has emerged as an effective strategy against cancer. The expression of DNA methyltransferase 1 (DNMT1) being high in S-phase of cell cycle makes it a specific target for methylation inhibition in rapidly dividing cells as in cancer. This review discusses nucleoside analogues (azacytidine, decitabine, zebularine, SGI-110, CP-4200), non-nucleoside ihibitors both synthetic (hydralazine, RG108, procaine, procainamide, IM25, disulfiram) and natural compounds (curcumin, genistein, EGCG, resveratrol, equol, parthenolide) which act through different mechanisms to inhibit DNMTs. The issues of bioavailability, toxicity, side effects, hypomethylation resistance and combinatorial therapies have also been highlighted.

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Role of Host miRNA Hsa-miR-139-3p in HPV-16–Induced Carcinomas

Sannigrahi

Sharma

Singh

et al. 2017

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Human papillomavirus 16 (HPV-16) is an important risk factor in head and neck cancer (HNC). Studies suggest that miRNAs play an important role in cancer; however, their role in HPV-mediated oncogenesis remains largely unknown. We investigated the role of miRNAs with HPV-16 as putative target in HPV-16-mediated cancers. Using tools, we identified miRNAs with putative binding sequences on HPV-16 miRNAs. Hsa-miR-139-3p was identified as best candidate miRNA by luciferase reporter assay and was found to be significantly downregulated in HPV-16-positive tissues and cell lines. Overexpression/inhibition studies were performed to determine the role of miRNA in regulating oncogenic pathways. Hsa-miR-139-3p was found to target high-risk HPV-16 oncogenic proteins and revive major tumor suppressor proteins (p53, p21, and p16). This resulted in inhibition of cell proliferation and cell migration, cell-cycle arrest at G-M phase and increased cell death of HPV-16-positive cells. Analysis of The Cancer Genome Atlas (TCGA) data showed decreased expression of Hsa-miR-139-3p in HPV-16-positive HNC and cervical cancer cases, and its higher expression correlated with better survival outcome in both cases. Increased DNA methylation of Hsa-miR-139-3p harboring gene PDE2A at its promoter/CpG islands was observed in HPV-16-positive tissues and cell lines, which further correlated with Hsa-miR-139-3p expression, suggesting its role in regulating Hsa-miR-139-3p expression. Furthermore, we observed an increased sensitization of Hsa-miR-139-3p overexpressed HPV-16-positive cells to chemotherapeutic drugs (cisplatin and 5-fluorouracil). HPV-16-mediated downregulation of Hsa-miR-139-3p may promote oncogenesis in HNC and cervical cancer. .

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Role of autophagy in head and neck cancer and therapeutic resistance

et al. 2014

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Head and neck squamous cell carcinomas (HNSCC) are one of the most common cancers worldwide, accounting for almost 50% of all malignancies in developing nations. Autophagy is a catabolic process involving turnover of long-lived proteins and organelles and is an important mechanism for cell survival under stress conditions. Autophagy has been shown to play a pivotal role in etio-pathogenesis of several cancers. Autophagy and apoptosis may be triggered by common upstream signals, and sometimes this results in combined autophagy and apoptosis, or defective apoptosis rendering immortalized epithelial cells highly tumorigenic. Autophagy has been found to buffer metabolic stress and may help in cell survival; however, inhibiting autophagy under conditions of nutrient limitation can restore cell death to apoptosis-refractory tumors. Therefore, autophagy acts as a double-edged sword in cancer therapeutics. Role of autophagy in pathophysiology and as a potential cancer therapeutics is a subject of intensive research. This review will focus on the role of autophagy and how it contributes to the pathogenesis and overcoming therapeutic resistance in HNSCC.

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A census of P. longum’s phytochemicals and their network pharmacological evaluation for identifying novel drug-like molecules against various diseases, with a special focus on neurological disorders

Choudhary

Singh

2018

PLoS ONE

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Piper longum (P. longum, also called as long pepper) is one of the common culinary herbs that has been extensively used as a crucial constituent in various indigenous medicines, specifically in traditional Indian medicinal system known as Ayurveda. For exploring the comprehensive effect of its constituents in humans at proteomic and metabolic levels, we have reviewed all of its known phytochemicals and enquired about their regulatory potential against various protein targets by developing high-confidence tripartite networks consisting of phytochemical—protein target—disease association. We have also (i) studied immunomodulatory potency of this herb; (ii) developed subnetwork of human PPI regulated by its phytochemicals and could successfully associate its specific modules playing important role in diseases, and (iii) reported several novel drug targets. P10636 (microtubule-associated protein tau, that is involved in diseases like dementia etc.) was found to be the commonly screened target by about seventy percent of these phytochemicals. We report 20 drug-like phytochemicals in this herb, out of which 7 are found to be the potential regulators of 5 FDA approved drug targets. Multi-targeting capacity of 3 phytochemicals involved in neuroactive ligand receptor interaction pathway was further explored via molecular docking experiments. To investigate the molecular mechanism of P. longum’s action against neurological disorders, we have developed a computational framework that can be easily extended to explore its healing potential against other diseases and can also be applied to scrutinize other indigenous herbs for drug-design studies.

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Accreditation in India: Pathways and Mechanisms

Das

Shah

Mane

et al. 2018

Journal of European CME

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Continuing medical education (CME) is a valuable mechanism to update physicians’ knowledge with ever-increasing plethora of contemporary advances within medical fraternity. Over time, scope of CME has seen change from simple clinical updates to comprehensive continuing professional development (CPD), which is accomplished with help of accredited CME programmes. The Medical Council of India, in 2011, made a mandatory resolution for doctors to attend minimum of 30 hours of CME/5 years to ensure recertification. Authorised accreditation councils and licensing authorities award CME credits for maintenance of physicians’ licensures. To date, in India, only 9 of 26 State Medical Councils have made re-registration mandatory. Although CME events benefit healthcare professionals by improving their proficiency and awareness, costs even to attend such interventions may be prohibitive. Despite financial help being received through grants and sponsorships, ethics of industry-sponsored CME remains a matter of debate. However, over past 10 years, pharmaceutical companies have started going beyond basic product information in order to focus on building physicians’ knowledge in various therapeutic areas. Though CME credit system and criteria for re-licensure for medical practice in India are evolving at a rapid pace, there is a need for harmonisation and robust implementation across all states in India.

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Vikram Singh

DNA Methyltransferase-1 Inhibitors as Epigenetic Therapy for Cancer

Role of Host miRNA Hsa-miR-139-3p in HPV-16–Induced Carcinomas

Role of autophagy in head and neck cancer and therapeutic resistance

A census of P. longum’s phytochemicals and their network pharmacological evaluation for identifying novel drug-like molecules against various diseases, with a special focus on neurological disorders

Accreditation in India: Pathways and Mechanisms

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