Abstract
AbstractBackgroundOver the past five years, the hypothesis linking periodontitis to Alzheimer’s disease (AD) has gained significant traction even though little is known about the underlying mechanisms driving this association. Periodontitis is caused by the dysbiosis of the dental biofilm, an extra‐cellular matrix produced by bacteria, which is mostly caused by the Gram‐negative bacterium Porphyromonas gingivalis. P. gingivalis has been found to infect the brain of AD patients and drive amyloid beta (Aβ) production while biofilm components can be identified interwoven with Aβ plaques1,2. We therefore hypothesize that P. gingivalis drives Aβ production in neural cells which co‐aggregates with bacterial biofilm to expedite plaque formation and downstream neuroinflammation.MethodTo assess if the biofilm of co‐aggregation of Aβ and the matrix was then analyzed by fluorescence microscopy, atomic force microscopy (AFM) and thioflavin T (ThT) fluorescence assays. To examine whether P. gingivalis stimulates Aβ production, we infected BE(2)‐M17 human neuroblastomas at a mean of infection of 1:100 before collecting cells and supernatant proteins to observe the cell response through protein and transcription assays.ResultsWhen co‐cultured, P. gingivalis and Aβ1‐42 co‐aggregated in plaque‐like structures, Interestingly, colocalization analysis revealed that Aβ1‐42 particularly associate with the extracellular component of biofilm (Figure 1). ThT assays and AFM imaging demonstrated faster aggregation of Aβ1‐42 when co‐incubated with fragments of P. gingivalis biofilm for 8 h, which suggests a significant cross‐seeding phenomenon between the two components (Figure 2). Furthermore, infection of human neuroblastomas resulted in a significant increase in Aβ production that could be detected by western blot, thus offering a workable model to study the link between AD and periodontitis (Figure 3).ConclusionOur project offers significant insights into the relationship between periodontitis and AD, allowing us to understand how P. gingivalis triggers Aβ production and how its biofilm drives plaque aggregation. This research greatly contributes to a better understanding of external AD risk factors and how to mediate their impacts on neurodegeneration. 1Dominy et al. Science Advances (2019) 2Mirzaei et al. Microbial Pathogenesis (2020)
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