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Cas9-mediated genome editing reveals a significant contribution of calcium signaling pathways to anhydrobiosis in Pv11 cells

Yugo Miyata, Hiroto Fuse, Shoko Tokumoto, Yusuke Hiki, Ruslan Deviatiiarov, Yuki Yoshida, Takahiro Yamada, Richard Cornette, Oleg Gusev, Elena Shagimardanova, Akira Funahashi, Takahiro Kikawada

2021Scientific Reports11 citationsDOIOpen Access PDF

Abstract

Abstract Pv11 is an insect cell line established from the midge Polypedilum vanderplanki , whose larval form exhibits an extreme desiccation tolerance known as anhydrobiosis. Pv11 itself is also capable of anhydrobiosis, which is induced by trehalose treatment. Here we report the successful construction of a genome editing system for Pv11 cells and its application to the identification of signaling pathways involved in anhydrobiosis. Using the Cas9-mediated gene knock-in system, we established Pv11 cells that stably expressed GCaMP3 to monitor intracellular Ca 2+ mobilization. Intriguingly, trehalose treatment evoked a transient increase in cytosolic Ca 2+ concentration, and further experiments revealed that the calmodulin–calcineurin–NFAT pathway contributes to tolerance of trehalose treatment as well as desiccation tolerance, while the calmodulin–calmodulin kinase–CREB pathway conferred only desiccation tolerance on Pv11 cells. Thus, our results show a critical contribution of the trehalose-induced Ca 2+ surge to anhydrobiosis and demonstrate temporally different roles for each signaling pathway.

Topics & Concepts

CryptobiosisTrehaloseDesiccation toleranceBiologyCell biologySignal transductionTardigradeCytosolCRISPRCalmodulinBiochemistryDesiccationGeneEnzymeGeneticsBotanyTardigrade Biology and EcologyIon channel regulation and functionGenetics, Aging, and Longevity in Model Organisms
Cas9-mediated genome editing reveals a significant contribution of calcium signaling pathways to anhydrobiosis in Pv11 cells | Litcius