Purujit N. Gurjar scite author profile

Current FDA-approved chemotherapeutic antimetabolites elicit severe side effects that warrant their improvement; therefore, we designed compounds with mechanisms of action focusing on inhibiting DNA replication rather than targeting multiple pathways. We previously discovered that 5-(α-substituted-2-nitrobenzyloxy)methyluridine-5′-triphosphates were exquisite DNA synthesis terminators; therefore, we synthesized a library of 35 thymidine analogs and evaluated their activity using an MTT cell viability assay of MCF7 breast cancer cells chosen for their vulnerability to these nucleoside derivatives. Compound 3a, having an α-tert-butyl-2-nitro-4-(phenyl)alkynylbenzyloxy group, showed an IC50 of 9 ± 1 μM. The compound is more selective for cancer cells than for fibroblast cells compared with 5-fluorouracil. Treatment of MCF7 cells with 3a elicits the DNA damage response as indicated by phosphorylation of γ-H2A. A primer extension assay of the 5′-triphosphate of 3a revealed that 3aTP is more likely to inhibit DNA polymerase than to lead to termination events upon incorporation into the DNA replication fork.

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IODVA1, a guanidinobenzimidazole derivative, targets Rac activity and Ras-driven cancer models

Gasilina

Premnauth

Gurjar

et al. 2020

PLoS ONE

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We report the synthesis and preliminary characterization of IODVA1, a potent small molecule that is active in xenograft mouse models of Ras-driven lung and breast cancers. In an effort to inhibit oncogenic Ras signaling, we combined in silico screening with inhibition of proliferation and colony formation of Ras-driven cells. NSC124205 fulfilled all criteria. HPLC analysis revealed that NSC124205 was a mixture of at least three compounds, from which IODVA1 was determined to be the active component. IODVA1 decreased 2D and 3D cell proliferation, cell spreading and ruffle and lamellipodia formation through downregulation of Rac activity. IODVA1 significantly impaired xenograft tumor growth of Ras-driven cancer cells with no observable toxicity. Immuno-histochemistry analysis of tumor sections suggests that cell death occurs by increased apoptosis. Our data suggest that IODVA1 targets Rac signaling to induce death of Ras-transformed cells. Therefore, IODVA1 holds promise as an anti-tumor therapeutic agent. OPEN ACCESS Citation: Gasilina A, Premnauth G, Gurjar P, Biesiada J, Hegde S, Milewski D, et al. (2020) IODVA1, a guanidinobenzimidazole derivative, targets Rac activity and Ras-driven cancer models. PLoS ONE 15(3): e0229801. https://doi.org/ 10.

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Self‐Cyclizing Antioxidants to Prevent DNA Damage Caused by Hydroxyl Radical

et al. 2017

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Antioxidant therapy is a promising treatment strategy for protecting DNA from the damage caused by reactive oxygen species (ROS). Here, we report new self-cyclizing antioxidant reagents that are selective for the hydroxyl radical. Our mechanistic investigation revealed that the reagents react with three equivalents of oxidant in a cascade reaction to form a bicyclic final product. Among the reagents synthesized, 1 c showed favorable properties in vitro and in cellular studies. Using As O , which triggers ROS production, we showed that 1 c prevents formation of the guanine oxidation product 2,2,4-triamino-2H-oxazol-5-one-2'-deoxyribonucleoside and lowers cellular levels of reactive oxygen. The described self-cyclizing antioxidants are efficient, flexible, and tunable reagents with the potential to limit toxic oxidative stress.

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Cyclopropenes as Potential Warheads for Inhibitors of Cysteine Proteases

Gurjar¹,

Bercz²,

Nguyen³

et al. 2015

ujc

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Over expression of cysteine proteases in human body causes neurodegenerative diseases, destruction of cartilage tissue, and bone atrophy, and some of them are implicated in destructive role of malignant tumors and cancer metastasis. Several non-human cysteine proteases play a key role in life cycles of certain foreign invasive organisms. Therefore, inhibition of cysteine proteases represents an important venue for finding potential therapeutic agents against Alzheimer's disease, multiple sclerosis, ischemic stroke, myocardial infarcts, carcinoma progression, as well as some parasital and viral infections. Affinity labeling agents used as inhibitors of cysteine proteases normally bear an electrophilic "warhead", a reactive group that covalently binds the active site cysteine residue thereby inactivating the enzyme, but achieving both high activity and selectivity remains challenging. We are developing cyclopropene derivatives that show selective binding of thiol residues of cysteine. Several derivatives of cyclopropenes have been synthesized and evaluated as potential cysteine-binding "warheads". Their stability in aqueous media and reactivity toward cysteine and other amino acid chemical probes was examined. We have found that 1,2-cyclopropene moiety irreversibly binds the thiol group of cysteine, leaving other amino acid residues unaffected, which has the advantage for targeting enzymes expressed in foreign organisms or promoting carcinoma progression.

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IODVA1, a Guanidinobenzimidazole Derivative with in vivo Activity Against Ras-Driven Cancer Models

et al. 2019

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Purujit N. Gurjar

Base-modified thymidines capable of terminating DNA synthesis are novel bioactive compounds with activity in cancer cells

IODVA1, a guanidinobenzimidazole derivative, targets Rac activity and Ras-driven cancer models

Self‐Cyclizing Antioxidants to Prevent DNA Damage Caused by Hydroxyl Radical

Cyclopropenes as Potential Warheads for Inhibitors of Cysteine Proteases

IODVA1, a Guanidinobenzimidazole Derivative with in vivo Activity Against Ras-Driven Cancer Models

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