Piyushi Gupta scite author profile

A dynamic network of metabolic adaptations, inflammatory responses and redox homeostasis is known to drive tumor progression. A considerable overlap between these processes exists, but several of their key regulators remain unknown. To this end, here we investigated the role of the proinflammatory cytokine IL-1β in connecting these processes in glioma cells. We found that glucose starvation sensitizes glioma cells to IL-1β-induced apoptosis in a manner that depended on reactive oxygen species (ROS).Although IL-1β-induced JNK had no effect on cell viability under glucose deprivation, it mediated nuclear translocation of hexokinase 2 (HK2). This event was accompanied by increases in the levels of sirtuin 6 (SIRT6), nuclear factor erythroid 2-related factor 2 (Nrf2), and xanthine oxidoreductase (XOR).

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Oncrasin targets the JNK-NF-κB axis to sensitize glioma cells to TNFα-induced apoptosis

Gupta

Dixit

Sen

2012

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Resistance of glioblastoma multiforme (GBM) to tumor necrosis factor (TNF) α-induced apoptosis have been attributed to increased nuclear factor-kappaB (NF-κB) activation. As we have previously reported that certain anticancer chemotherapeutics can sensitize glioma cells to TNFα-induced apoptosis by abrogating NF-κB activation, we investigated the potential of oncrasin in sensitizing glioma cells to TNFα-induced apoptosis. Oncrasin reduced glioma cell viability, inhibited TNFα-mediated NF-κB activation and sensitized cells to TNFα-induced apoptosis. Apoptosis was accompanied by elevated Fas and Fas-associated death domain (FADD) levels, increased caspase-8 activation and formation of death-inducing signaling complex (DISC). Oncrasin also (i) affected expression of cell cycle regulators, (ii) triggered DNA damage response, (iii) induced G(2)/M cell cycle arrest, (iv) decreased telomerase activity, (v) abrogated STAT3 activation and (v) mediated extracellular release of high mobility group box 1 (HMGB1) along with its increased association with nucleosomes. Oncrasin-induced apoptosis did not involve mitochondria. Importantly, oncrasin increased c-jun N-terminal kinase (JNK) phosphorylation and pharmacological inhibition of JNK rescued oncrasin-induced apoptosis. JNK inhibition prevented oncrasin-induced decrease in TNFα-induced NF-κB activity and inhibition of NF-κB increased JNK phosphorylation in TNFα-treated cells. Oncrasin induced DISC formation and inhibited anchorage-independent growth of glioma cells in a JNK-dependent manner. By elucidating the existence of JNK-NF-κB cross-talk that regulates resistance to TNFα-induced apoptosis, this study has highlighted the importance of JNK in regulating viability of glioma cells.

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Lactate induced HIF-1α-PRMT1 cross talk affects MHC I expression in monocytes

Gupta

Singh

Gowda

et al. 2016

Experimental Cell Research

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TNFα driven HIF-1α-hexokinase II axis regulates MHC-I cluster stability through actin cytoskeleton

Ghosh

Gupta

Sen

2016

Experimental Cell Research

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Piyushi Gupta

β-defensin-3 negatively regulates TLR4–HMGB1 axis mediated HLA-G expression in IL-1β treated glioma cells

Hexokinase 2 and nuclear factor erythroid 2–related factor 2 transcriptionally coactivate xanthine oxidoreductase expression in stressed glioma cells

Oncrasin targets the JNK-NF-κB axis to sensitize glioma cells to TNFα-induced apoptosis

Lactate induced HIF-1α-PRMT1 cross talk affects MHC I expression in monocytes

TNFα driven HIF-1α-hexokinase II axis regulates MHC-I cluster stability through actin cytoskeleton

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