Salivary α-Amylase: Role in Dental Plaque and Caries Formation

Scannapieco, Frank A.; Torres, Guillermo; Levine, Michael

doi:10.1177/10454411930040030701

Cited by 236 publications

(186 citation statements)

References 53 publications

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“…Consistent with previous data (Tanzer et al, 2001a), S. gordonii appears to be either a non-cariogen or, at most, a feeble cariogen, despite its striking ability to prominently colonize the surface of teeth of our rats or humans (Scannapieco et al, 1993;Tanzer et al, 2001b). The present data suggest that deletion of its abpA slightly increases its virulence, and that this cariogenicity increase is associated with its augmented ability to colonize the surface of teeth in the in vivo plaque biofilm.…”

Section: Discussionsupporting

confidence: 79%

“…They are early colonizers of the tooth and numerous in human supragingival dental plaque biofilm (Scannapieco et al, 1994;Tseng et al, 1992;Tanzer et al, 2001b). It has been speculated that ABS such as Streptococcus gordonii, abundant on the teeth of humans, make a significant contribution to the process of dental caries (Scannapieco et al, 1993). However, a recent comprehensive review of the literature on human dental caries suggests, if anything, an inverse relationship of S. gordonii colonization with caries prevalence and incidence (Tanzer et al, 2001b).…”

Section: Introductionmentioning

confidence: 99%

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Amylase-binding proteins A (AbpA) and B (AbpB) differentially affect colonization of rats' teeth by Streptococcus gordonii

et al. 2003

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Streptococcus gordonii produces two a-amylase-binding proteins, AbpA and AbpB, that have been extensively studied in vitro. Little is known, however, about their significance in oral colonization and cariogenicity (virulence). To clarify these issues, weanling specific pathogen-free Osborne-Mendel rats, TAN : SPFOM(OM)BR, were inoculated either with wild-type strains FAS4-S or Challis-S or with strains having isogenic mutations of abpA, abpB, or both, to compare their colonization abilities and persistence on the teeth. Experiments were done with rats fed a sucrose-rich diet containing low amounts of starch or containing only starch. The mutants and wild-types were quantified in vivo and carious lesions were scored. In 11 experiments, S. gordonii was a prolific colonizer of the teeth when rats were fed the sucrose (with low starch)-supplemented diet, often dominating the flora. Sucrose-fed rats had several-fold higher recoveries of inoculants than those eating the sucrose-free, starch-supplemented diet, regardless of inoculant type. The strain defective in AbpB could not colonize teeth of starch-only-eating rats, but could colonize rats if sucrose was added to the diet. Strains defective in AbpA surprisingly colonized better than their wild-types. A double mutant deficient in both AbpA and AbpB (abpA/abpB) colonized like its wild-type. Wild-types FAS4-S and Challis-S had no more than marginal cariogenicity. Notably, in the absence of AbpA, cariogenicity was slightly augmented. Both the rescue of colonization by the AbpB " mutant and the augmentation of colonization by AbpA " mutant in the presence of dietary sucrose suggested additional amylase-binding protein interactions relevant to colonization. Glucosyltransferase activity was greater in mutants defective in abpA and modestly increased in the abpB mutant. It was concluded that AbpB is required for colonization of teeth of starch-eating rats and its deletion is partially masked if rats eat a sucrose-starch diet. AbpA appears to inhibit colonization of the plaque biofilm in vivo. This unexpected effect in vivo may be associated with interaction of AbpA with glucosyltransferase or with other colonization factors of these cells. These data illustrate that the complex nature of the oral environment may not be adequately modelled by in vitro systems.

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Section: Discussionsupporting

confidence: 79%

Section: Introductionmentioning

confidence: 99%

Amylase-binding proteins A (AbpA) and B (AbpB) differentially affect colonization of rats' teeth by Streptococcus gordonii

et al. 2003

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“…Salivary amylase is a calcium containing metalloenzyme that catalyses the hydrolysis of α [1,4] glycosidic bonding between glucose residues of polysaccharides such as starch, glycogen and dextrins [5,11]. In addition to its digestive action, α-amylase is also In the present study, an evaluation of mucins in unstimulated saliva was performed in healthy, gingivitis and chronic periodontitis subjects.…”

Section: Discussionmentioning

confidence: 99%

Estimation of Levels of Salivary Mucin, Amylase and Total Protein in Gingivitis and Chronic Periodontitis Patients

Kejriwal

Bhandary

Thomas

et al. 2014

JCDR

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Background: Periodontal diseases are a group of inflammatory conditions resulting from interaction between a pathogenic bacterial biofilm and susceptible host's inflammatory response eventually leading to the destruction of periodontal structures and subsequent tooth loss. Hence, investigation of salivary proteins in individuals with periodontal diseases may be useful to enhance the knowledge of their roles in these diseases. Materials and Methods:This case-control study was conducted at A.B. Shetty Memorial Institute of Dental Sciences, Mangalore. The study comprised of 90 patients of age between 25-60 years who were clinically examined and divided into three groups of 30 each: namely clinically healthy, gingivitis and chronic periodontitis. These were classified according to the values of gingival index score, clinical attachment loss and probing pocket depth. Unstimulated saliva was collected and salivary mucin, amylase and total protein levels were determined. Statistical analysis:Results obtained were tabulated and statistically analyzed using ANOVA test and Karl pearson's correlation test. Results:The results of the study showed an increased concentration of salivary mucin, amylase and total protein in gingivitis patients and increased levels of amylase and total protein in saliva of chronic periodontitis patients compared to healthy individuals which were statistically significant. A decrease in mucin concentration was observed in the periodontitis group compared to gingivitis group. A positive correlation was present between salivary mucin, amylase and total protein levels in the three groups.Conclusion: Salivary mucin, amylase and total protein may serve as an important biochemical parameter of inflammation of the periodontium. Also, it can be hypothesized that various enzyme inhibitors might be useful as a part of host modulation therapy in the treatment of periodontal diseases.

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“…Third, α-amylase in solution binds with high affinity to viridans oral streptococci and bacteria-bound α-amylase is capable of hydrolyzing starch to glucose, which can be used as a food source and then further metabolized to lactic acid. Localized acid production by bacteria can lead to the dissolution of tooth enamel, a critical step in dental caries progression (12,13). Because of its central role in the oral cavity, α-amylase salivary has been exploited as a target for the structureassisted design of compounds that might prevent unwanted dental plaque formation and the subsequent process of dental caries formation and progression.…”

Section: ________________________________________mentioning

confidence: 99%

α-Amylase Inhibitors: A Review of Raw Material and Isolated Compounds from Plant Source

et al. 2012

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-Inhibition of α-amylase, enzyme that plays a role in digestion of starch and glycogen, is considered a strategy for the treatment of disorders in carbohydrate uptake, such as diabetes and obesity, as well as, dental caries and periodontal diseases. Plants are an important source of chemical constituents with potential for inhibition of α-amylase and can be used as therapeutic or functional food sources. A review about crude extracts and isolated compounds from plant source that have been tested for α-amylase inhibitory activity has been done. The analysis of the results shows a variety of crude extracts that present α-amylase inhibitory activity and some of them had relevant activity when compared with controls used in the studies. Amongst the phyto-constituents that have been investigated, flavonoids are one of them that demonstrated the highest inhibitory activities with the potential of inhibition related to number of hydroxyl groups in the molecule of the compound. Several phyto-constituents and plant species as α-amylase inhibitors are being reported in this article. Majority of studies have focused on the anti-amylase phenolic compounds.

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Salivary α-Amylase: Role in Dental Plaque and Caries Formation

Cited by 236 publications

References 53 publications

Amylase-binding proteins A (AbpA) and B (AbpB) differentially affect colonization of rats' teeth by Streptococcus gordonii

Amylase-binding proteins A (AbpA) and B (AbpB) differentially affect colonization of rats' teeth by Streptococcus gordonii

Estimation of Levels of Salivary Mucin, Amylase and Total Protein in Gingivitis and Chronic Periodontitis Patients

α-Amylase Inhibitors: A Review of Raw Material and Isolated Compounds from Plant Source

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