Abstract

Cells respond to hydrostatic pressure to maintain cellular, organ, and organism level functions, yet the direct pressure sensors are largely unknown. Here we show that hydrostatic pressure directly activates With No Lysine(K) kinase-3 (WNK3) 1, a soluble intracellular protein kinase. Using gel filtration we demonstrate that pressure induces a dimer to monomer transition in a construct of the unphosphorylated kinase domain of WNK3 (uWNK3-KDm or uWNK3). The uWNK3 has not been crystallized, but crosslinking data suggest that the uWNK3 dimer corresponds to crystallographically observed dimer of WNK1 (uWNK1-KDm, or uWNK1) 2,3. Sequence alignments with WNKs from species living in different pressure environments and mutational analysis lend further support for this idea. Unique features of the uWNK1 structure suggest a mechanism involving bound water. We further show that hydrostatic pressure activates full-length WNK3 in D. melanogaster tubules.