Hierarchical Model for the Role of J-Domain Proteins in Distinct Cellular Functions

Abstract

ABSTRACTIn Escherichia coli, the major bacterial Hsp70 system consists of DnaK, three J-domain proteins (JDPs: DnaJ, CbpA, and DjlA), and one nucleotide exchange factor (NEF: GrpE). JDPs determine substrate specificity for the Hsp70 system; however, knowledge on their specific role in bacterial cellular functions is limited. In this study, we demonstrated the role of JDPs in bacterial survival during heat stress and the DnaK-regulated formation of curli—extracellular amyloid fibers involved in E. coli biofilm formation. Genetic analysis with a complete set of JDP-null mutant strains demonstrated that only DnaJ is essential for survival at high temperature, while DnaJ and CbpA are indispensable in DnaK regulation of curli production. Additionally, we found that DnaJ and CbpA are involved in the expression of the master regulator CsgD through the folding of MlrA; this keeps CsgA in a translocation-competent state by preventing its aggregation in the cytoplasm. Our findings support a hierarchical model wherein the role of JDPs in the Hsp70 system differs according to individual cellular functions.