In this report, we define requirements for the successful translocation and functional maturation of the adhesin P1 of Streptococcus mutans. Conformational epitopes recognized by anti-P1 monoclonal antibodies (MAbs) were further characterized, thus facilitating the use of particular MAbs as tools to monitor the locations of various forms of the protein. We show that correct localization of P1 is dependent on structural features of the molecule itself, including a requisite A region-P region intramolecular interaction that occurs within the cell prior to secretion. P1 also was shown to be affected by several members of the protein-foldingsecretion-turnover apparatus. It does not achieve a fully functional form in the absence of the trigger factor PPIase homolog RopA, and its translocation is delayed when DnaK levels are limited. In addition, dnaK message levels are differentially altered in the presence of P1 lacking the alanine-rich compared to the proline-rich repeat domains. Lastly, nonsecreted P1 lacking the P region accumulates within the cell in the absence of htrA, implying an intracellular HtrA protease function in the degradation and turnover of this particular internal-deletion polypeptide. However, the opposite effect is seen for full-length P1, suggesting a sensing mechanism and substrate-dependent alteration in HtrA's function and effect that is consistent with its known ability to switch between chaperone and protease, depending on environmental perturbations.Streptococcus mutans is an oral bacterium that is a major etiologic agent of dental caries (19). The multidomain (M r , ϳ185,000) wall-associated multifunctional fibrillar cell surface protein P1 (15), encoded by spaP (28, 33), was originally identified as antigen (Ag) I/II (59). It is also called PAc (48), encoded by pac (49), and is widely understood to enable attachment of S. mutans to the acquired salivary pellicle on teeth. Ag I/II family proteins are expressed by most oral streptococci and mediate interactions with salivary constituents; host cell matrix proteins, such as fibronectin, fibrinogen, and collagen; and other oral bacteria (reviewed in reference 26). They share architectural features with a broad category of surface adhesins prevalent among streptococci and staphylococci called microbial surface components recognizing adhesive matrix molecules (MSCRAMMs), whose functions are dependent on complex structural elements (63). P1 contains a 38-residue amino-terminal signal sequence, a series of three 82-residue alanine-rich tandem repeats (A region); a 144-residue variable (V) region, where 20/36 amino acid differences between P1 and PAc are clustered (4); a central proline-rich (P) region, comprised of three 39-residue tandem repeats; and carboxy-terminal membrane-and wall-spanning regions, including the LPXTG motif characteristic of wall-anchored sortase substrates (14, 66). A schematic representation of the molecule and derivatives evaluated in this study is shown in Fig. 1.Several regions have been implicated in the ligand bindin...
