Browsing by Author "Kler, Harveen"

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Dual inhibitors of epidermal growth factor receptor and topoisomerase IIa derived from a quinoline scaffold
(Royal Society of Chemistry, 2016) Chauhan, Monika; Joshi, Gaurav; Kler, Harveen; Kashyap, Archana; Amrutkar, Suyog M.; Sharma, Praveen; Bhilare, Kiran D.; Banerjee, Uttam C.; Singh, Sandeep; Kumar, Raj
Based on the quinazoline bearing EGFR inhibitors, a series of thirty four compounds having a quinoline scaffold were synthesised and evaluated in vitro for EGFR kinase inhibitory activity. A structure-activity relationship study revealed that 2,4-bis(arylamino) substituted quinolines possessed better anti-EGFR kinase activity. Compounds 3f and 3m emerged as potent EGFR kinase inhibitors (200 and 210 nM, respectively) and showed excellent anticancer activity at the micromolar level against a panel of cancer cell lines comparable to erlotinib. Furthermore, representative compounds inhibited the human topoisomerase II? selectively and catalytically, did not intercalate with DNA, increased intracellular ROS concentration (except 3m) and altered the mitochondrial membrane potential of the cancer cells. Cell cycle analysis and annexin-V staining in a lung cancer cell line showed that the compounds delayed cell cycle progression by inducing cell cycle arrest and subsequent apoptosis at the G1 phase. The facts were further corroborated through molecular modeling studies. ? 2018 The Royal Society of Chemistry.
Synthesis and biological evaluation of new 2, 5- dimethylthiophene/furan based N-acetyl pyrazolines as selective topoisomerase II inhibitors
(Royal Society of Chemistry, 2016) Darpan; Joshi, Gaurav; Amrutkar, Suyog M.; Baviskar, Ashish T.; Kler, Harveen; Singh, Sandeep; Banerjee, Uttam C.; Kumar, Raj
Based on the reported pharmacophores as topoiomerase inhibitors, 2,5 dimethylthiophen/furan based N-acetyl pyrazolines were designed and envisaged as topoisomerase inhibitors. The target compounds were synthesized and tested in vitro against human topoisomerases in decatenation, relaxation, cleavage complex and DNA intercalation assay. Out of 29 compounds, three (10, 11 and 29) showed potent and selective toposiomerse II inhibitory activity with no intercalation with DNA. Further, molecular docking studies also endorsed them as ATP dependent topoisomerase II catalytic inhibitors. These compounds exerted potential anticancer effects on breast, colon, lung and prostate cancer cell lines at low micromolar level as compared to etoposide and low toxicity to normal cells. Apart from the topoisomerase II inhibition, these compounds also induced the reactive oxygen species (ROS) level in cancer cells. The cell cycle analyses showed their apoptotic effect at G1 phase.
Toward an Understanding of Structural Insights of Xanthine and Aldehyde Oxidases: An Overview of their Inhibitors and Role in Various Diseases
(John Wiley and Sons Inc., 2018) Kumar, Raj; Joshi, Gaurav; Kler, Harveen; Kalra, Sourav; Kaur, Manpreet; Arya, Ramandeep
Almost all drug molecules become the substrates for oxidoreductase enzymes, get metabolized into more hydrophilic products and eliminated from the body. These metabolites sometime may be more potent, active, inactive, or toxic in nature compared to parent molecule. Xanthine oxidoreductase and aldehyde oxidase belong to molybdenum containing family and are well characterized for their structures and functions, in particular to their ability to oxidize/hydroxylate the xenobiotics. Their upregulated clinical levels causing oxidative stress are associated with pathways either directly involved in the progression of diseases, gout, or indirectly with the succession of other diseases such as diabetes, cancer, etc. Herein, we have put forth a comprehensive review on the xanthine and aldehyde oxidases pertaining to their structures, functions, pathophysiological role, and a comparative analysis of structural insights of xanthine and aldehyde oxidases? binding domains with endogenous ligands or inhibitors. Though both the enzymes are molybdenum containing and are likely to share some common pathways and interact with inhibitors in a similar manner but we have focused on structural prerequisites for inhibitor specificity to both the enzymes keeping in view of the existing X-ray structures. This review also provides futuristic implications in the design of inhibitors derived from inorganic complexes or small organic molecules considering the spatial features and structural insights of both the enzymes. ? 2017 Wiley Periodicals, Inc.