DegP is a periplasmic protease that is a member of both the E and Cpx extracytoplasmic stress regulons of Escherichia coli and is essential for viability at temperatures above 42°C. [U-14 C]acetate labeling experiments demonstrated that phospholipids were degraded in degP mutants at elevated temperatures. In addition, chloramphenicol acetyltransferase, -lactamase, and -galactosidase assays as well as sodium dodecyl sulfatepolyacrylamide gel electrophoresis analysis indicated that large amounts of cellular proteins are released from degP cells at the nonpermissive temperature. A mutation in pldA, which encodes outer membrane phospholipase A (OMPLA), was found to rescue degP cells from the temperature-sensitive phenotype. pldA degP mutants had a normal plating efficiency at 42°C, displayed increased viability at 44°C, showed no degradation of phospholipids, and released far lower amounts of cellular protein to culture supernatants. degP and pldA degP mutants containing chromosomal lacZ fusions to Cpx and E regulon promoters indicated that both regulons were activated in the pldA mutants. The overexpression of the envelope lipoprotein, NlpE, which induces the Cpx regulon, was also found to suppress the temperature-sensitive phenotype of degP mutants but did not prevent the degradation of phospholipids. These results suggest that the absence of OMPLA corrects the degP temperature-sensitive phenotype by inducing the Cpx and E regulons rather than by inactivating the phospholipase per se.Extracytoplasmic stress, such as that caused by heat shock or the overproduction of outer membrane proteins in Escherichia coli, is believed to be caused by the accumulation and aggregation of denatured and misfolded proteins in the membranes and periplasm. Under these conditions the Cpx two-component signal transduction pathway and the alternative sigma factor E direct the synthesis of several proteins that are involved in the degradation and refolding of these denatured and misfolded periplasmic proteins, leading to alleviation of the stress (for a review, see reference 50).The rpoE gene encoding E is essential for the viability of cells at all temperatures (22).E is known to direct the transcription of degP (htrA), fkpA, rpoE, rpoH, and many others (12,14,15,26,34). DegP is a protease/chaperone that digests abnormal proteins in the periplasm and has been demonstrated to be necessary for cell viability at temperatures of 42°C and above (33,35,55,57,58,59), and FkpA is a peptidyl prolyl cis/trans isomerase (28, 41). RseA, RseB, and RseC are involved in regulating the transcription of genes in the E regulon (21, 42). Under heat shock conditions or upon overexpression of outer membrane proteins, denatured and misfolded proteins in the periplasm are sensed by RseA and/or RseB (38). E is then released by the cytoplasmic domain, allowing it to direct transcription of the genes in the E regulon.
