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Lipin-1-derived diacylglycerol activates intracellular TRPC3 which is critical for inflammatory signaling

Javier Casas, Clara Meana, José R. López‐López, Jesús Balsinde, Marı́a A. Balboa

2021Cellular and Molecular Life Sciences19 citationsDOIOpen Access PDF

Abstract

Abstract Exposure to Gram-negative bacterial LPS exacerbates host immune responses and may lead to sepsis, a life-threatening condition. Despite its high mortality and morbidity, no drugs specifically directed to treating sepsis are currently available. Using human cell genetic depletion, pharmacological inhibition, live-cell microscopy and organelle-targeted molecular sensors we present evidence that the channel TRPC3 is activated intracellularly during macrophage exposure to LPS and is essential for Ca 2+ release from internal stores. In this manner, TRPC3 participates in cytosolic Ca 2+ elevations, activation of the transcription factor NF-κB and cytokine upregulation. We also report that TRPC3 is activated by diacylglycerol generated by the phosphatidic acid phosphatase lipin-1. In accord with this, lipin-1-deficient cells exhibit reduced Ca 2+ responses to LPS challenge. Finally, pharmacological inhibition of TRPC3 reduces systemic inflammation induced by LPS in mice. Collectively, our study unveils a central component of LPS-triggered Ca 2+ signaling that involves intracellular sensing of lipin-1-derived DAG by TRPC3, and opens new opportunities for the development of strategies to treat LPS-driven inflammation.

Topics & Concepts

TRPC3Diacylglycerol kinaseCell biologyIntracellularInflammationProinflammatory cytokineDownregulation and upregulationSignal transductionAutacoidBiologyLipopolysaccharideImmune systemImmunologyProtein kinase CBiochemistryTRPCTransient receptor potential channelReceptorGeneIon Channels and ReceptorsBiochemical Analysis and Sensing TechniquesHerbal Medicine Research Studies
Lipin-1-derived diacylglycerol activates intracellular TRPC3 which is critical for inflammatory signaling | Litcius