Leslie K Kopec scite author profile

GlucosyltransferaseB, GtfC, and GtfD were purified by hydroxyapatite column chromatography, followed by ultrafiltration from the culture supernatant fluids of three Streptococcus milleri constructs (gift from Dr. H.K. Kuramitsu) which harbored individual gtf genes of Streptococcus mutans GS5. GtfB, GtfC, and GtfD were enzymatically active both in solution and in an experimental pellicle (HA-CWS-Gtf) formed by adsorbing Gtf onto the surface of clarified human whole saliva (CWS)-coated hydroxyapatite (HA). The Km values for sucrose for all three enzymes were lower when the enzyme was adsorbed to a surface, compared with when it was in solution. In solution phase assays, and in the absence of primer dextran, glucan production was enhanced 75% when both GtfB and GtfD were present in the reaction mixture, compared with the sum of the individual enzyme activities (p < 0.005). This enhancement did not occur when GtfC was additionally present, or when the GtfB+GtfD enzyme pair was adsorbed onto HA-CWS. In additional experiments, glucan formed by GtfB or GtfC, but not by GtfD, on a HA-CWS-Gtf surface increased adherence of Streptococcus mutans GS5 and Streptococcus sobrinus 6715 by seven- to nine-fold compared with adherence when no glucan was present on the pellicle surface (p < 0.001). Further, treatment of the HA-CWS-GtfB-glucan or HA-CWS-GtfC-glucan pellicle with alpha-1,6 dextranase significantly reduced adherence of both streptococcal strains (p < 0.001). These results show that GtfB, GtfC, and GtfD are enzymatically active in an adsorbed state and that the nature of their product glucan can influence the adherence of cariogenic oral streptococci to an experimental pellicle.

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Structural aspects of glucans formed in solution and on the surface of hydroxyapatite

Kopec

Vacca-Smith

Bowen

1997

Glycobiology

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Streptococcus mutans glucosyltransferases (GtfB, -C, and -D) and their products formed from sucrose, glucans, play an essential role in the pathogenesis of dental caries. Enzymatically active Gtf is found in whole human saliva (solution), and incorporated into the salivary pellicle that is formed on teeth in vivo (surface). GtfB glucans are predominantly 1,3-linked; however, surface-formed glucans from GtfB contain greater amounts of 3-linked glucose than glucans formed in solution. In contrast, the major linkage of glucans formed on the surface by GtfB in the presence of sucrose and starch hydrolysates in 4-linked glucose. GtfC-derived glucans in solution have a major linkage of 6-linked glucose, while surface-formed glucans from the same enzyme have 3-linked glucose as the major linkage. GtfD glucans formed either in solution or on the surface are predominantly 1,6-linked; however, surface-formed glucans contain more 6-linked glucose than solution-formed glucans. Digestion with the glucanohydrolases mutanase and dextranase shows differences in susceptibility among glucans formed either in solution or on the surface by each of the Gtf enzymes, and differences are also seen in the soluble end products from these digestions. Our results show that the same Gtf enzyme can form structurally distinct glucans in solution and on a surface. These observations are important in the study of naturally occurring microbial films.

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The influence of mutanase and dextranase on the production and structure of glucans synthesized by streptococcal glucosyltransferases

Fujimaki

Koo

Vacca-Smith

et al. 2004

Carbohydrate Research

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Adhesion of Actinomyces Isolates to Experimental Pellicles

1993

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The ability of oral bacteria to adhere to surfaces is associated with their pathogenicity. Actinomyces can adhere to pellicle and cells through extracellular fimbriae. Research on adhesion of actinomyces has been conducted with use of hydroxyapatite (HA) coated with mammalian-derived salivary constituents, whereas the bacterial-derived components of the acquired pellicle have been largely ignored. The influence of the cell-free bacterial enzyme, glucosyltransferase (GTF), on adhesion of human and rodent isolates of Actinomyces viscosus was examined. Cell-free GTF was adsorbed onto parotid saliva-coated hydroxyapatite (sHA). Next, A. viscosus was exposed to the pellicle following the synthesis of glucan formed in situ by GTF. Glucans formed on the pellicle served as binding sites for adhesion of a rodent strain of A. viscosus. Conversely, the presence of in situ glucans on sHA reduced the adhesion of human isolates of A. viscosus compared with their adhesion to sHA. Adhesion of the rodent strains may be facilitated through a dextran-binding protein, since the rodent strains aggregated in the presence of dextrans and mutan. The human isolates were not aggregated by dextran or mutan. Pellicle harboring A. viscosus rodent strains interfered with the subsequent adhesion of Streptococcus mutans to the bacterial-coated pellicle. In contrast, the adhesion of S. mutans to pellicle was not decreased when the pellicle was pre-exposed to a human isolate of A. viscosus. The experimental data suggest that human and the rodent isolates of A. viscosus have distinct glucan adhesion properties.(ABSTRACT TRUNCATED AT 250 WORDS)

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Leslie K Kopec

Characterization of GlucosyltransferaseB, GtfC, and GtfD in Solution and on the Surface of Hydroxyapatite

Structural aspects of glucans formed in solution and on the surface of hydroxyapatite

The influence of mutanase and dextranase on the production and structure of glucans synthesized by streptococcal glucosyltransferases

Adhesion of Actinomyces Isolates to Experimental Pellicles

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