TABLE 3.
Periplasmic elements other than penicillin binding proteins related to PGN biology
| Target | Role(s) | Species | Effect(s) of target disruption | Reference(s) |
|---|---|---|---|---|
| Targets related to cell septation/division | ||||
| AmiA, AmiB, AmiC | Periplasmic N-acetylmuramyl-l-alanine amidases that cleave stem peptides from glycan chains on PGN | E. coli | Formation of abnormal septa, causing growth in long chains of unseparated cells | 64, 65 |
| YebA, EnvC, and NlpD | LytM factors participating through their peptidase activity in cell elongation and division | H. influenzae | Alterations in division with irregular cell architecture and massive membrane blebbing for YebA and NlpD knockout mutants; a reduction in the amount of periplasmic proteins and an impaired capacity to adhere to epithelial cells, to form biofilms, and to resist the bactericidal power of serum with EnvC deletion | 76 |
| AmiC | A periplasmic N-acetyl-muramyl-l-alanine amidase that cleaves stem peptides from glycan chains on PGN | Burkholderia spp. | In daughter cells, an inability to separate, growing in filaments and losing motility, all of which leads to an inability to survive in the rat model and colonize the insect gut | 68, 69 |
| AmiC | A periplasmic N-acetylmuramyl-l-alanine amidase that cleaves the peptide side chains linked to the glycan strands on PGN and whose activity is potentiated by the presence of the regulator NlpD | X. campestris | Impaired daughter cell separation, aberrant cell and colony morphology, and impaired T3SS performance | 70 |
| AmiA | A periplasmic N-acetylmuramoyl-l-alanyl amidase essential for daughter cell separation | H. pylori | Appearance of long chains of unseparated cells and impaired motility; a reduced capacity for colonization of the stomach in a mouse model | 66 |
| AmiB | A periplasmic N-acetylmuramyl–l-alanine amidase involved in stem peptide cleavage from PGN chains | P. aeruginosa | Filamentous growth with a marked deficiency in the invagination of the inner membrane and increased permeability of the outer membrane | 67 |
| PBP3SAL | A specialized PGN synthase enabling formation of the division septum and promoting cell division in the acidic intraphagosomal environment | S. enterica serovar Typhimurium | Induction of PBP3SAL during infection favoring higher bacterial loads in murine models of infection when a wild type was compared with a knockout mutant | 71 |
| AmiA, AmiC, and SufI and the pathways for their correct expression (Cpx system) and export to the periplasm (Tat) | Periplasmic N-acetylmuramoyl-l-alanyl amidases that cleave stem peptides from glycan chains on PGN (AmiA and AmiC) and a divisomal transpeptidase (SufI) | S. Typhimurium (also E. coli) | For AmiA and AmiC, impairment in septation and separation of daughter cells (filamentation) and virulence attenuation in a BALB/c mouse infection model; for SufI, increased sensitivity to detergents and cationic antimicrobial peptides and impaired motility | 72–75 |
| Modification of PGN related to morphogenesis | ||||
| PgdA | An N-deacetylase for PGN modification | H. pylori | Decreased resistance of PGN to lytic activity of lysozyme; double mutant (PgdA-PatA) impaired for mouse colonization | 81 |
| PatA | A putative O-acetyltransferase for PGN modification | H. pylori | Decreased resistance of the PGN to lytic activity of lysozyme; double mutant (PgdA-PatA) impaired for mouse colonization | 81 |
| Csd1 to Csd3 and CcmA | Periplasmic endopeptidase homologues essential to allow a decrease in PGN cross-linking levels | H. pylori | In single mutants, a curved instead of a helical shape, which was related to a decrease in colonization capacity in mouse stomach model competitions | 80 |
| Ape1 | An O-acetylpeptidoglycan esterase responsible for de-O-acetylation of PGN | C. jejuni | Changes in PGN biochemistry; defects in virulence-associated features, including motility, biofilm formation, sodium deoxycholate resistance, adhesion, invasion, intracellular survival, induction of IL-8 release, and impairment of chick colonization | 79 |
| Pgp1 | A d,l-carboxypeptidase involved in maintenance of cell shape, cleaving monomeric tripeptides to dipeptides | C. jejuni | Loss of helical shape; increase in the level of stimulation of NOD-1 receptors and derived induction of IL-8 release; decreased motility and biofilm formation; deficient for chick colonization | 77 |
| Pgp2 | An l,d-carboxypeptidase involved in maintenance of cell shape, converting PGN tetrapeptides into tripeptides, which in turn are substrates for Pgp1 | C. jejuni | Loss of helical shape; defective in motility on semisolid agar and biofilm formation; reduced fitness in chick colonization model | 78 |
| LtgA and LtgD | Nonessential, nonredundant lytic transglycosylases | N. gonorrhoeae | Decreased envelope integrity, leading to increased susceptibility to lysozyme and neutrophil killing | 82 |
| PGN-degrading enzymes related to sacculus remodeling to allow elongation and recycling | ||||
| MltB | A membrane-bound lytic murein transglycosylase participating in PGN degradation | N. meningitidis | Inability to cause systemic infection in an infant rat model | 84 |
| MtgA | A biosynthetic transglycosylase | Brucella spp. | Upregulation during infection; in a knockout mutant, lower virulence in a mouse infection model | 85, 86 |
| MltE | A membrane-bound lytic transglycosylase | Erwinia amylovora | Upregulation during infection; in a knockout mutant, reduced virulence and growth in a pear model | 85, 87 |
| 90_A18ORF1 | A soluble lytic murein transglycosylase | Haemophilus influenzae | Upregulation of the 90_A18ORF1 gene during infection (a KO mutant is not available) | 85, 88 |
| Ipx10.11 | A lytic murein transglycosylase | Pseudomonas syringae pv. tomato | Upregulation during infection; in a knockout mutant, impaired virulence in an Arabidopsis thaliana infection model | 85, 89 |
| Ddc | A d-alanine–d-alanine carboxypeptidase | A. baumannii | Hypersusceptibility to serum and polymyxin B; defective in intramacrophage survival; a drastically reduced capacity for survival in a mouse bloodstream infection model | 83 |
| ShyA, ShyB, and ShyC | Periplasmic proteins containing M23 family peptidase domains; for ShyA, a d,d-endopeptidase preferentially cleaving cross-links between tetrapeptides and located in the lateral cell wall; for ShyC, preferential location in the septum | V. cholerae | In a ShyA and ShyB double mutant, a significant growth deficiency; in a shyC mutant with depletion of ShyA, dramatic impairment of cell elongation rates and a significant increase in cell width, which would presumably affect attachment to host tissue | 90 |