Sustaining healthy long-term host-microbiome interactions in a physiologically relevant dynamic gingival tissue model

Abstract

AbstractHost-oral microbiome interactions are known to be critical in maintaining local and systemic health of the human body, although they are difficult to study in both clinical andin vitroapplications. Despite efforts, recapitulation of gingival architecture and physiological characteristics of the periodontal niche cannot be achieved by traditional tissue engineering strategies. Here, we advanced our humanized three-dimensional gingival model by co-culturing it with a healthy patient-derived microbiomes for seven days within an oral bioreactor that mimics native salivary dynamics. Our results indicated long-term host and microbiome viability, host barrier integrity and physiological response, and preservation of healthy microbial populations and interbacterial dialogues. The model has proven useful in successfully mimicking tissue homeostasis at the interface of the periodontal niche and suitable for the introduction of immune cells. Future studies will focus on using the model as a comparator of periodontal inflammation and identifying biomarkers associated with eubiotic/dysbiotic profiles.Graphical AbstractCreated partially in biorender.com.