Intracellular Localization and Gene Expression Analysis Provides New Insights on LEA Proteins’ Diversity in Anhydrobiotic Cell Line

Anhydrobiosis, an adaptive ability to withstand complete desiccation, in the nonbiting midge <i>Polypedilum vanderplanki</i>, is associated with the emergence of new multimember gene families, including a group of 27 genes of late embryogenesis abundant (LEA) proteins (<i>PvLea</i>). To obtain new insights into the possible functional specialization of these genes, we investigated the expression and localization of <i>PvLea</i> genes in a <i>P. vanderplanki</i>-derived cell line (Pv11), capable of anhydrobiosis. We confirmed that all but two <i>PvLea</i> genes identified in the genome of <i>P. vanderplanki</i> are expressed in Pv11 cells. Moreover, <i>PvLea</i> genes are induced in Pv11 cells in response to anhydrobiosis-inducing trehalose treatment in a manner highly similar to the larvae of <i>P. vanderplanki</i> during the real induction of anhydrobiosis. Then, we expanded our previous data on PvLEA proteins localization in mammalian cells that were obtained using C-terminal fusions of PvLEA proteins and green fluorescent protein (GFP). We investigated PvLEA localization using N- and C-terminal fusions with GFP in Pv11 cells and the Sf9 insect cell line. We observed an inconsistency of PvLEA localization between different fusion types and different cell cultures, that needs to be taken into account when using PvLEA in the engineering of anhydrobiotic cell lines.