Streptococcus mutans dextransucrase: stimulation of glucan formation by phosphoglycerides.

Lysophosphatidylcholine (LPC) and other phosphoglycerides stimulated water-insoluble and water-soluble glucan production by the Streptococcus mutans 6715 dextransucrase (EC 2.4.1.5). LPC stimulated crude extracellular dextransucrase 1.7-fold, the water-insoluble glucan-producing alpha form of the enzyme 6.5-fold, the water-soluble glucan-producing beta form of the enzyme 2.1-fold, and the cell-associated dextransucrase 2.0-fold. Kinetic studies demonstrated that LPC did not change the K(m) for sucrose of alpha or beta but increased the maximum velocity of the enzymes. The K(m) for LPC of the alpha enzyme was 10(-5) M. LPC from various sources and synthetic preparations of lauroyl-LPC, myristoyl-LPC, and palmitoyl-LPC all stimulated glucan formation. Portions of phosphoglyceride molecules including fatty acids, phosphatidic acid, glycerophosphoric acid, glycerophos-phorylcholine, and choline, when tested individually or in combinations, did not enhance dextransucrase activity. The increased rates of glucan production caused by LPC and primer dextran were additive. Enzyme incubated with LPC before addition of sucrose was stimulated by dextran primer, and, conversely, enzyme treated with dextran was stimulated by addition of LPC with the sucrose substrate. Thus, dextransucrase can be activated by binding of intact phosphoglyceride molecules to a site on the enzyme that is distinct from either the glucosyl donor or glucosyl acceptor (primer) binding sites. Interactions between the S. mutans dextransucrase and amphipathic phosphoglycerides may explain properties of this enzyme which contribute to the cariogenicity of S. mutans.