Modeling anhydrobiosis: activation of the mitogen-activated protein kinase ERK by dehydration in both human cells and nematodes

Abstract

Anhydrobiosis (“life without water”) is the state of suspended animation that certain organisms, including some nematodes, tardigrades, and bdelloid rotifers, enter during desiccation. Extreme water loss imposes considerable stress on biomolecules, cells, and tissues, and must require specific sensing and response mechanisms for survival. However, these mechanisms are poorly understood, in part owing to the lack of amenable model systems. We have, therefore, begun to develop mammalian cell lines as tools for investigating the eukaryotic response to desiccation, and have an additional long‐term goal of generating a desiccation‐tolerant mammalian cell. Here, we investigate the role of the mitogen‐activated protein kinases (MAPKs) in controlling gene expression in response to evaporative water loss. We report that the ERK MAPK pathway inhibitor U0126 can almost completely block induction of desiccation early response genes in a human cell line, suggesting a role for the ERK signal transduction pathway in the stress response. Accordingly, ERK is activated by phosphorylation during desiccation of human cells. Importantly, nematodes also activate ERK on drying, showing that the mammalian cell model behaves similarly to invertebrates experiencing similar stress conditions. We further reveal that, in response to desiccation, human cells can rapidly initiate complex stress signaling networks involving all three MAPK pathways, with transient activation of ERK and sustained activation of JNK and p38. These results are consistent with a role for MAPK pathways in anhydrobiotic adaptation and suggest that non‐anhydrobiotes are able to sense and, at least to some extent, respond appropriately to evaporative water loss. J. Exp. Zool. 313A:660–670, 2010. © 2010 Wiley‐Liss, Inc.