AUTHOR=Bao Kai , Li Xiaofei , Poveda Lucy , Qi Weihong , Selevsek Nathalie , Gumus Pinar , Emingil Gulnur , Grossmann Jonas , Diaz Patricia I. , Hajishengallis George , Bostanci Nagihan , Belibasakis Georgios N. TITLE=Proteome and Microbiome Mapping of Human Gingival Tissue in Health and Disease JOURNAL=Frontiers in Cellular and Infection Microbiology VOLUME=Volume 10 - 2020 YEAR=2020 URL=https://www.frontiersin.org/journals/cellular-and-infection-microbiology/articles/10.3389/fcimb.2020.588155 DOI=10.3389/fcimb.2020.588155 ISSN=2235-2988 ABSTRACT=Efforts to map gingival tissue proteomes and microbiomes have been hampered by lack of sufficient tissue extraction methods. The pressure cycling technology (PCT) is an emerging platform for reproducible tissue homogenization and improved sequence retrieval coverage. Therefore, we employed PCT to characterize the proteome and microbiome profiles in healthy and diseased gingival tissue. Healthy and diseased contralateral gingival tissue samples (total n=10) were collected from five systemically healthy individuals (51.6± 4.3 years) with generalized chronic periodontitis. The tissues were then lysed and digested using a Barocycler, proteins were prepared and submitted for mass spectrometric analysis and microbiome DNA for 16S rRNA profiling analysis. Overall, 1366 human proteins were quantified (false discovery rate 0.22%), of which 69 proteins were differentially expressed (≥2 peptides and p<0.05, 62 up, 7 down) in periodontally diseased sites, compared to healthy sites. These were primarily extracellular or vesicle-associated proteins, with functions in molecular transport. On the microbiome level, 362 species-level operational taxonomic units were identified. Of those, 14 predominant species accounted for >80% of the total relative abundance, whereas 11 proved to be significantly different between healthy and diseased sites. Among them, Treponema sp. HMT253 and Fusobacterium naviforme and were associated with disease sites and strongly interacted (r > 0.7) with 30 and 6 up-regulated proteins. While healthy sites-related strain Streptococcus vestibularis, Veillonella dispar, Selenomonas sp. HMT478 and Leptotrichia sp. HMT417 shown strong negative interactions (r < -0.7) with 31, 21, 9, and 18 up-regulated proteins, respectively. In addition, none of the down-regulated proteins has strong interactions with regulated bacteria. The present study identified proteomic and intra-tissue microbiome profile of human gingiva by employing a PCT-assisted workflow. This is the first report demonstrating the feasibility to analyze full proteome profiles of gingival tissues in both healthy and disease sites while deciphering the tissue site-specific microbiome signatures.