Envelope Disorder of Escherichia coli Cells Lacking Phosphatidylglycerol

Abstract

Phosphatidylglycerol, the most abundant acidic phospholipid in Escherichia coli , is considered to play specific roles in various cellular processes that are essential for cell viability. A null mutation of pgsA , which encodes phosphatidylglycerophosphate synthase, does indeed confer lethality. However, pgsA null mutants are viable if they lack the major outer membrane lipoprotein (Lpp) ( lpp mutant) (S. Kikuchi, I. Shibuya, and K. Matsumoto, J. Bacteriol. 182:371-376, 2000). Here we show that Lpp expressed from a plasmid causes cell lysis in a pgsA lpp double mutant. The envelopes of cells harvested just before lysis could not be separated into outer and inner membrane fractions by sucrose density gradient centrifugation. In contrast, expression of a mutant Lpp (LppΔK) lacking the COOH-terminal lysine residue (required for covalent linking to peptidoglycan) did not cause lysis and allowed for the clear separation of the outer and inner membranes. We propose that in pgsA mutants LppΔK could not be modified by the addition of a diacylglyceryl moiety normally provided by phosphatidylglycerol and that this defect caused unmodified LppΔK to accumulate in the inner membrane. Although LppΔK accumulation did not lead to lysis, the accumulation of unmodified wild-type Lpp apparently led to the covalent linking to peptidoglycan, causing the inner membrane to be anomalously anchored to peptidoglycan and eventually leading to lysis. We suggest that this anomalous anchoring largely explains a major portion of the nonviable phenotypes of pgsA null mutants.