Sage Journals: Discover world-class research

Abstract

The effects of the oral environment on dentin matrix collagen were studied. In the partial prostheses of 12 participants, two completely demineralized dentin specimens were mounted covered by a Dacron gauze. After an experimental period of seven weeks, the specimens were transferred to a trypsin-containing buffer for determination of the amount of denatured collagen. Subsequently, the specimens were incubated with a bacterial collagenase for assessment of the amount of collagen. After the intra-oral exposure, there was a collagen loss varying between 1 and 47 wt%. This variation might be due to differences in proteolytic activity of the colonizing microflora. After exposure to the oral environment, only about 0.5 wt% of the available collagen was trypsin-degradable. This indicates a rapid solubilization of the denatured collagen from the specimens into the oral cavity. A separate group of specimens was examined by light microscopy and transmission electron microscopy. Various degrees of breakdown could be discerned. Some experimental specimens showed loss of surface integrity and tubules heavily infected with different types of micro-organisms. The lumens of the tubules were enlarged, sometimes creating caverns as a result of the loss of the intertubular collagenous matrix.

Get full access to this article

View all access options for this article.

References

Adriaens PA (1982). Ultrastructural aspects of dentine and its bacterial invasion (dissertation). Ghent (Belgium): State Univ. of Ghent.

Beighton D. , Life Jsc (1989). Trypsin-like, chymotrypsin-like and glycylprolyl dipeptidase activities in gingival crevicular fluid from human periodontal sites with gingivitis. Arch Oral Biol 34:843-846.

Bleeg HS (1990). Non-specific cleavage of collagen by proteinases in the presence of sodium dodecyl sulfate., Scand J Dent Res 98:235-241.

Bretz WA , Loesche WJ (1987). Characteristics of trypsin-like activity in subgingival plaque J Dent Res 66:1668-1672.

Clarkson BH , Hall DL , Heilman JR , Wefel JS (1986). Effect of proteolytic enzymes on caries lesion formation in vitro. J Oral Pathol 15:423-429.

Dayan D. , Binderman I. , Mechanic GL (1983). A preliminary study of activation of collagenase in carious human dentine matrix. Arch Oral Biol 28:185-187.

Edwardsson S. (1974). Bacteriological studies on deep areas of carious dentine. Odont Revy 25 (Suppl 32):1-143.

Frank RM , Steuer P. , Hemmerle J. (1989). Ultrastructural study on human root caries. Caries Res 23:209-217.

Goldberg M. , Keil B. ( 1989). Action of a bacterial Achromobacter collagenase on the soft carious dentine. J Biol Buccale 17:269-274.

10.

Hoppenbrouwers Pmm , Driessens Fcm , Borggreven Jmpm (1987). The mineral solubility of human tooth roots. Arch Oral Biol 32:319-322.

11.

Hoshino E. (1985). Predominant obligate anaerobes in human carious dentin. J Dent Res 64:1195-1198.

12.

Jamall IS , Finelli VN , Que Hee SS (1981). A simple method to determine nanogram levels of 4-hydroxyproline in biological tissues. Anal Biochem 112:70-75.

13.

Katz S. , Park KK , Palenik CJ (1987). In vitro root surface caries studies. J Oral Med 42:40-48.

14.

Klont B. , Damen Jjm , Ten Cate JM (1991). Degradation of bovine incisor root collagen in an in vitro caries model. Arch Oral Biol 36:299-304.

15.

Klont B. , Ten Cate JM (1991). Susceptibility of the collagenous matrix from bovine incisor roots to proteolysis after in vitro lesion formation. Caries Res 25:46-51.

16.

Mayrand D. , Grenier D. (1985). Detection of collagenase activity in oral bacteria . Can J Microbiol 31:134-138.

17.

Schüpbach P. , Guggenheim B. , Lutz F. ( 1989). Human root caries: histopathology of initial lesions in cementum and dentin. J Oral Pathol Med 18:146-156.

18.

Scott PG , Leaver AG (1974). The degradation of human dentine collagen by trypsin . Connect Tissue Res 2:299-307.

19.

Soder P. -0 (1972). Proteolytic activity in the oral cavity: proteolytic enzymes from human saliva and dental plaque material. J Dent Res 51:389-393.

20.

Volpin D. , Veis A. ( 1973). Cyanogen bromide peptides from insoluble skin and dentin bovine collagens. Biochemistry 12:1452-1464.

21.

Werb Z. , Burleigh MC (1974). A specific collagenase from the rabbit fibroblast in monolayer culture. Biochem J 137:373-385.

22.

Wu JJ , Eyre DR ( 1988). Fine powdering exposes the mineral-protected collagen of bone to protease digestion. Calcif Tissue Int 42:243-247.

23.

Yanagimura M. , Koike F. , Hara K. ( 1989). Collagenase activity in gingival crevicular fluid and inhibition by tetracyclines. J Dent Res 68 (Spec Iss):1691-1693.

24.

Young MA , Massler M. (1963). Some physical and chemical characteristics of carious dentine. Br Dent J 115:406-412.

Solubilization of Dentin Matrix Collagen in situ

Abstract

Get full access to this article

References