Nippon Saikingaku Zasshi Volume 68, Issue 2

Adhesins of oral streptococci

Oral streptococci comprise a numerically prominent group of oral bacteria that occur primarily on the human tooth surface as members of the biofilm community, commonly referred to as dental plaque. These streptococci are not only causative of dental caries and are primers for colonization of periodontopathic bacteria, but also well known for their ability to colonize damaged heart valves, identified most frequently as primary etiological agents of infective endocarditis. A number of streptococcal cell surface components are known to contribute to colonization of the tooth surface including putative adhesins recognizing host sialic acid (sialic acid-binding adhesins). Interactions mediated by these adhesins include the attachment of these bacteria to saliva-coated hydroxyapatite and their adhesion to erythrocytes, both of which are abolished or reduced by sialidase pretreatment of the corresponding host sialoglycoconjugate receptors. The sialic acid-binding adhesin on Streptococcus gordonii, an early colonizer on the tooth surface, has been molecularly analyzed. The adhesin, Hsa (203-kDa protein), consists of an N-terminal non repetitive region (NR1) including a signal sequence, a relatively short serine-rich region (SR1), a second non repetitive region (NR2), a long serine-rich region (SR2) containing 113 dodecapeptide repeats accounting for 75% of the whole protein, and a C-terminal cell wall anchoring domain. Therefore, it has been suggested that NR2, the putative sialic acid-binding domain of Hsa, is presented on the bacterial surface at the end of a long molecular stalk formed by SR2. The present review deals with the function and pathogenicity of oral streptococcal adhesins.