Release of soluble peptidoglycan from growing gonococci: hexaminidase and amidase activities

Abstract

Peptidoglycan (PG) turnover in exponentially growing Neisseria gonorrhoeae RD5 type 4 was accompanied by release of soluble PG fragments into the medium. Turnover of the D-[14C]glucosamine-labeled glycan moiety and of the meso-[3H]diaminopimelic acid (DAP)-labeled peptide region occurred at similar rates (ca. 35% per generation). Turnover of D-[14C]alanine-labeled sites within the peptide side chain of PG occurred at roughly twice this rate; no turnover of L-[3H]proline-labeled protein was detected. Gel filtration of supernatants of cultures grown in the presence of labeled DAP, glucosamine, and D-alanine as described above and paper chromatography of hydrolyzed peak fractions revealed four major types of soluble PG. Two of these contained both peptide and glycan moieties and appeared to represent forms of disaccharide peptide monomers and dimers. The other two were (i) a 3H-labeled product lacking 14C and (ii) a 14C-containing product lacking 3H, which were similar in size to that expected for free tetrapeptides and free disaccharides, respectively. Together the appearance of these PG fragments and the concurrent turnover of glycan and peptide regions indicate that both glycan splitting and amidase PG hydrolase activities are involved in the turnover of PG in growing gonococci. If released during gonococcal infections, similar soluble PG fragments might influence the consequences of host-gonococcus interactions.