Adherence of mutans streptococci to other oral bacteria

Abstract

Adherence of mutans streptococci to strains of Actinomyces viscosus, Streptococcus sanguis, and Streptococcus mitis immobilized on a nitrocellulose membrane was measured. Strains of Streptococcus mutans, S. sobrinus, and S. rattus bound in a lactose-independent manner to a variety of the actinomyces and streptococci. Most of these reactions could proceed in the presence of whole saliva although adherence of S. rattus BHT to the streptococci was inhibited by salivary molecules. In contrast, adherence of S. mutans 10449 and KPSK2 to A. viscosus, S. sanguis, and S. mitis was enhanced by salivary molecules. S. mutans KPSK2, S. sobrinus OMZ 176, and S. rattus FA-1 binding to A. viscosus NC3 and S. sanguis G9B exhibited saturation kinetics. Adherence to A. viscosus NC3 was of a higher avidity than adherence to S. sanguis G9B. Attachment of S. mutans KPSK2 to S. sanguis G9B and of S. mutans OMZ 176 to A. viscosus NC3 and S. sanguis G9B was inhibited by heat treatment of the mutans streptococci. Attachment of S. mutans KPSK2 to A. viscosus NC3 and of S. rattus FA-1 to A. viscosus NC3 and S. sanguis G9B was unaffected by heat. These observations suggest that the mutans streptococci can adhere to a variety of early plaque bacteria by several distinct mechanisms. Such interactions may be important in the colonization of tooth surfaces by the mutans streptococci.