Jagjeet Singh scite author profile

Protein kinases constitute one of the largest and most functionally diverse gene families that regulate key cell functions. In past several years, kinase inhibition has emerged as potential anti-cancer drug target. Purine is a priveleged heterocyclic nucleus which exists in the chemical architecture of various bioactive compounds. Numerous reports on the use of purine analogues in the treatment of acute leukemias (thiopurines, pentostatin), as antiviral (acyclovir, penciclovir, ganciclovir), as immunosuppressive (azathioprine), as antitumor (vidarabine), as bronchodilator (theophylline) have been revealed. In the past decade, purine analogues have emerged as significantly potent kinase inhibitors. A fair amount of research has been done and several patents have also been published highlighting the kinase inhibitory action of purines. Caffeine, 2-aminopurine, purvalanol-A, seleciclib, FSBA, adenosine thiol analogue possessing purine as the basic moiety fall under this category. In view of the use of purines for the inhibition of kinases, there is need for compilation of data specifying the prominence of purines in the treatment of cancer through this mechanism. The structure of the potent compounds, their IC50 values, models used and the enzymes/ receptors/ targets involved have been presented in this review. The present compilation covers the patents published entailing the purines as kinase inhibitors and the purine drugs employed in chemotherapy.

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Synthesis of 1,2,3-triazole tethered bifunctional hybrids by click chemistry and their cytotoxic studies

Singh

Sharma

Saxena

et al. 2012

Med Chem Res

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Synthesis of robustin and related 4-hydroxy-3-phenyl coumarins and isoflavones

Jain

Singh

1974

Tetrahedron

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Metabolic and immune-sensitive contacts between lipid droplets and endoplasmic reticulum reconstituted in vitro

Kamerkar

Singh

Tripathy

et al. 2022

Proc. Natl. Acad. Sci. U.S.A.

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Coordinated cell function requires a variety of subcellular organelles to exchange proteins and lipids across physical contacts that are also referred to as membrane contact sites. Such organelle-to-organelle contacts also evoke interest because they can appear in response to metabolic changes, immune activation, and possibly other stimuli. The microscopic size and complex, crowded geometry of these contacts, however, makes them difficult to visualize, manipulate, and understand inside cells. To address this shortcoming, we deposited endoplasmic reticulum (ER)-enriched microsomes purified from rat liver or from cultured cells on a coverslip in the form of a proteinaceous planar membrane. We visualized real-time lipid and protein exchange across contacts that form between this ER-mimicking membrane and lipid droplets (LDs) purified from the liver of rat. The high-throughput imaging possible in this geometry reveals that in vitro LD–ER contacts increase dramatically when the metabolic state is changed by feeding the animal and also when the immune system is activated. Contact formation in both cases requires Rab18 GTPase and phosphatidic acid, thus revealing common molecular targets operative in two very different biological pathways. An optical trap is used to demonstrate physical tethering of individual LDs to the ER-mimicking membrane and to estimate the strength of this tether. These methodologies can potentially be adapted to understand and target abnormal contact formation between different cellular organelles in the context of neurological and metabolic disorders or pathogen infection.

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Jagjeet Singh

Design strategies, structure activity relationship and mechanistic insights for purines as kinase inhibitors

Purine Analogues as Kinase Inhibitors: A Review

Synthesis of 1,2,3-triazole tethered bifunctional hybrids by click chemistry and their cytotoxic studies

Synthesis of robustin and related 4-hydroxy-3-phenyl coumarins and isoflavones

Metabolic and immune-sensitive contacts between lipid droplets and endoplasmic reticulum reconstituted in vitro

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