g congenital or acquired immunodeficiencies) Environmental fact

g. congenital or acquired immunodeficiencies). Environmental factors (e.g. diet and smoking) can also manipulate the host–microbe balance unfavorably [9, 10]. From a microbe-centric perspective, find more the keystone-pathogen hypothesis holds that certain low-abundance microbes can orchestrate destructive periodontal inflammation by remodeling a normally symbiotic microbiota into a dysbiotic state [4]. Keystone or keystone-like pathogens may also be involved in polymicrobial inflammatory diseases occurring in other mucosal tissues [4, 5]. Porphyromonas gingivalis is a gram-negative asaccharolytic bacterium that has long been implicated in human periodontitis [11]. Recent

evidence suggests that this bacterium contributes to periodontitis by functioning as a keystone pathogen [12, 13]. The objective of this review is to summarize Kinase Inhibitor Library and discuss the virulence credentials that qualify P. gingivalis as a “conductor” in the orchestration of inflammatory bone loss in periodontitis. Porphyromonas gingivalis resides in the subgingival crevice almost exclusively. Within this region, there are three distinct microenvironments for P. gingivalis: the complex sessile community on the root surface, the fluid phase of the gingival crevicular fluid (GCF), and in and on the gingival epithelial cells

(GECs) that line the crevice. Moreover, P. gingivalis can transition among these niches, each of which provides distinct opportunities and challenges for the organism. Adaption of P. gingivalis occurs on a global scale and indeed the organism differentially regulates around 30% of the expressed proteome according to community, planktonic, or epithelial cell conditions [14, 15]. The GECs of the subgingival crevice constitute both a physical barrier to microbial intrusion, and an interactive interface that signals microbial either presence to the underlying cells of the immune system. Porphyromonas gingivalis rapidly and abundantly invades GECs intracellularly, with both host cells and microbial interlopers remaining viable over the long term [16, 17]. The internalization process initiates

with the FimA fimbrial mediated attachment of P. gingivalis to β1-integrin receptors on the GEC surface with the resultant recruitment and activation of the integrin focal adhesion complex (Fig. 1) [18]. Simultaneously, P. gingivalis secretes the functionally versatile serine phosphatase SerB, which can enter host cells and dephosphorylate and thus activate the actin depolymerizing molecule cofilin [19, 20]. The resulting transient and localized disruption of actin structure allows the organism to enter the interior of the cell. Integrin-dependent signaling also converges cytoskeletal remodeling and restores actin structure albeit in a condensed subcortical configuration [21]. Porphyromonas gingivalis rapidly locates in the cell cytoplasm that is generally anoxic [22], although later may traffic through autophagosomes before spreading cell to cell [23, 24]. Internalized P.

Comments are closed.