The affinity of LPS to its pattern recognition receptors, such as

The affinity of LPS to its pattern recognition receptors, such as the TLRs and CD14, enables discrimination between commensal and pathogenic species. The P. gingivalis LPS is a stimulator of proinflammatory

responses and bone resorption, as demonstrated in experimental animal models (Chiang et al., 1999; Nishida et al., 2001). In vitro, it stimulates proinflammatory cytokine production of, for example, IL-1α, IL-1β, IL-6, IL-8, IL-18 and tumour necrosis factor (TNF)-α in monocytes (Zhou et al., 2005; Bostanci et al., 2007a, b; Hamedi et al., 2009). Yet, P. gingvalis LPS exhibits controversial features with regard to the induction of an inflammatory response. Apart from being a weaker cytokine stimulator compared with the LPS of other Gram-negative (i.e. enteropathogenic) species (Liu et al., 2008), it can also antagonize the cytokine-stimulating capacity of other putative pathogens (Bostanci et al., 2007a, b).

Structurally, P. gingivalis LPS Alpelisib cell line exhibits unique features compared with the LPS of other species. These include differences in the structure of the O-antigen between P. gingivalis strains that can confer antigenic differences (Paramonov et al., 2001, 2009), as well as in the acylation patterns and receptor-activating capacities of the lipid A component. While the lipid A of most Gram-negative species is a strong activator of TLR4 responses, P. gingivalis lipid A is predominantly a TLR2 activator and may even act as antagonist to TLR4 (Darveau et al., 2004), dampening the immune responses (Hajishengallis, 2009). When considering further the heterogeneous acylation patterns of P. gingivalis Dabrafenib concentration lipid A, two forms are predominant: the tetra-acylated and penta-acylated forms. These two structures induce opposing host responses. The penta-acylated lipid A activates TLR4, whereas tetra-acylated lipid A acts as

a TLR4 antagonist (Darveau et al., 2004; Nemoto et al., 2006). These changes of P. gingivalis lipid A acylation are dependent on microenvironmental Tacrolimus (FK506) conditions. In particular, when hemin availability is high (a condition that reflects inflammation), penta-acylated lipid A is converted into tetra-acylated lipid A (Al-Qutub et al., 2006). Hence, by modifying its lipid A structure according to the microenvironment, P. gingivalis may modulate the binding affinity of its LPS to its cognate TLR receptors, subsequently selecting how to affect downstream host immune signalling. Interestingly, a second type of LPS has also been identified in P. gingivalis, containing a distinct anionic polysaccharide linked to lipid A, known as A-LPS (Paramonov et al., 2005). A-LPS is required for cell integrity and serum resistance (Shoji et al., 2002; Paramonov et al., 2005; Slaney et al., 2006) and is structurally associated with the Arg-X gingipain (Curtis et al., 1999; Paramonov et al., 2005). It is also a weaker inducer of cytokine responses by human monocytes, as compared with the conventional LPS (Rangarajan et al., 2008).

Leave a Reply

Your email address will not be published. Required fields are marked *

*

You may use these HTML tags and attributes: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>