This application is for support of a project focused on the acid-base physiology of selected bacteria from dental plaque, specifically Lactobacillus casei, Streptococcus mutans, Streptococcus sanguis and Actinomyces viscosus. These organisms were chosen to represent a wide range of acid tolerance from the highly tolerant L. casei to the relatively intolerant A. viscosus. A basic premise of the project is that acid tolerance is directly related to cariogenicity. To be cariogenic, a plaque bacterium must first colonize and become a significant member of the flora. It must then produce acid rapidly from dietary or salivary, sugars. It must be able to carry out glycolysis at the low pH values in plaque that lead to demineralization. The minimum pH value in cariogenic plaque is somewhat less than 4, and it is only the more acid-tolerant organisms that are active in this acid environment, especially the mutans streptococci, but also Lactobacillus organisms. The challenge to tooth integrity is related to the total time of acidification and to the extent of acidification during the acid-base cycles of plaque. An important part of the proposal concerns the abilities of cariogenic bacteria to adapt to acid environments and the mechanisms of adaptation. Preliminary results indicate that phenotypic adaptation does occur in chemostat culture and involves increased activity of F1F0 proton translocating ATPases. Adaptation results in acquired ability to carry out glycolysis at lower pH values. Thus, not only is acid tolerance a cariogenic attribute, but ability to adapt to acid environments may enhance cariogenicity. The major player in acid tolerance appears to be the FlF0 ATPase of cell membranes, and much of the proposed work is on basic enzymology, including isolation and purification of Fl and F0 sectors, separation of sector components, reconstitution of enzymes on membranes, in solution and in liposomes. Work is planned also on secondary systems involved in proton currents across the membrane, especially potassium transporters and proton-organic-acid symporters. The net result of the proposed work and related genetic work will be a clearer picture of the acid-base physiology of cariogenic plaque bacteria, and hopefully, ways to reduce the cariogenicity of plaque.

Agency
National Institute of Health (NIH)
Institute
National Institute of Dental & Craniofacial Research (NIDCR)
Type
Research Project (R01)
Project #
5R01DE006127-12
Application #
2129316
Study Section
Oral Biology and Medicine Subcommittee 1 (OBM)
Project Start
1983-03-01
Project End
1996-02-29
Budget Start
1994-03-01
Budget End
1995-02-28
Support Year
12
Fiscal Year
1994
Total Cost
Indirect Cost
Name
University of Rochester
Department
Microbiology/Immun/Virology
Type
Schools of Dentistry
DUNS #
208469486
City
Rochester
State
NY
Country
United States
Zip Code
14627
Nguyen, Phuong T M; Marquis, Robert E (2011) Antimicrobial actions of ?-mangostin against oral streptococci. Can J Microbiol 57:217-25
Sheng, Jiangyun; Baldeck, Jeremiah D; Nguyen, Phuong T M et al. (2010) Alkali production associated with malolactic fermentation by oral streptococci and protection against acid, oxidative, or starvation damage. Can J Microbiol 56:539-47
Lemos, Jose A; Abranches, Jacqueline; Koo, Hyun et al. (2010) Protocols to study the physiology of oral biofilms. Methods Mol Biol 666:87-102
Barboza-Silva, E; Castro, A C D; Marquis, R E (2009) Fluoride, triclosan and organic weak acids as modulators of the arginine deiminase system in biofilms and suspension cells of oral streptococci. Oral Microbiol Immunol 24:265-71
Baldeck, Jeremiah D; Marquis, Robert E (2008) Targets for hydrogen-peroxide-induced damage to suspension and biofilm cells of Streptococcus mutans. Can J Microbiol 54:868-75
Sheng, Jiangyun; Marquis, Robert E (2007) Malolactic fermentation by Streptococcus mutans. FEMS Microbiol Lett 272:196-201
Sheng, Jiangyun; Nguyen, Phuong T M; Baldeck, Jeremiah D et al. (2006) Antimicrobial actions of benzimidazoles against the oral anaerobes Fusobacterium nucleatum and Prevotella intermedia. Arch Oral Biol 51:1015-23
Koo, Hyun; Sheng, Jiangyun; Nguyen, Phuong T M et al. (2006) Co-operative inhibition by fluoride and zinc of glucosyl transferase production and polysaccharide synthesis by mutans streptococci in suspension cultures and biofilms. FEMS Microbiol Lett 254:134-40
Sheng, Jiangyun; Marquis, Robert E (2006) Enhanced acid resistance of oral streptococci at lethal pH values associated with acid-tolerant catabolism and with ATP synthase activity. FEMS Microbiol Lett 262:93-8
Phan, Tuan-Nghia; Marquis, Robert E (2006) Triclosan inhibition of membrane enzymes and glycolysis of Streptococcus mutans in suspensions and biofilms. Can J Microbiol 52:977-83

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