Role of an Alginate Lyase for Alginate Transport in Mucoid Pseudomonas aeruginosa

Abstract

ABSTRACT The opportunistic pathogen Pseudomonas aeruginosa secretes a capsule-like polysaccharide called alginate that is important for evasion of host defenses, especially during chronic pulmonary disease of patients with cystic fibrosis (CF). Most proteins for alginate biosynthesis are encoded by the 12-gene algD operon. Interestingly, this operon also encodes AlgL, a lyase that degrades alginate. Mutants lacking AlgG, AlgK, or AlgX, also encoded by the operon, synthesize alginate polymers that are digested by the coregulated protein AlgL. We examined the phenotype of an Δ algL mutation in the highly mucoid CF isolate FRD1. Generating a true Δ algL mutant was possible only when the algD operon was under the control of a LacI q -repressed trc promoter. Upon induction of alginate production with isopropyl-β- d -thiogalactopyranoside, the Δ algL mutant cells were lysed within a few hours. Electron micrographs of the Δ algL mutant showed that alginate polymers accumulated in the periplasm, which ultimately burst the bacterial cell wall. The requirement of AlgL in an alginate-overproducing strain led to a new model for alginate secretion in which a multiprotein secretion complex (or scaffold, that includes AlgG, AlgK, AlgX, and AlgL) guides new polymers through the periplasm for secretion across the outer membrane. In this model, AlgL is bifunctional with a structural role in the scaffold and a role in degrading free alginate polymers in the periplasm.