Microbial Carriage State of Peripheral Blood Dendritic Cells (DCs) in Chronic Periodontitis Influences DC Differentiation, Atherogenic Potential

Carrion, Julio; Scisci, Elizabeth; Miles, Brodie; Sabino, Gregory J.; Zeituni, Amir E.; Gu, Ying; Bear, Adam; Genco, Caroline A.; Brown, David L.; Cutler, Christopher W.

doi:10.4049/jimmunol.1201053

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Carrion, J., Scisci, E., Miles, B., Sabino, G. J., Zeituni, A. E., & Gu, Y., et al. (2012). Microbial carriage state of peripheral blood dendritic cells (dcs) in chronic periodontitis influences dc differentiation, atherogenic potential. The Journal of Immunology, 189(6), 3178–3187.
Added by: Dr. Enrique Feoli (27/07/2020, 17:04) Last edited by: Dr. Enrique Feoli (27/07/2020, 17:04)

Resource type: Journal Article
DOI: 10.4049/jimmunol.1201053
ID no. (ISBN etc.): 0022-1767
BibTeX citation key: Carrion2012
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Categories: BioAcyl Corp
Subcategories: Oral bacteria heart benefits
Creators: Bear, Brown, Carrion, Cutler, Genco, Gu, Miles, Sabino, Scisci, Zeituni
Collection: The Journal of Immunology

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Abstract

The low-grade oral infection chronic periodontitis (CP) has been implicated in coronary artery disease risk, but the mechanisms are unclear. In this study, a pathophysiological role for blood dendritic cells (DCs) in systemic dissemination of oral mucosal pathogens to atherosclerotic plaques was investigated in humans. The frequency and microbiome of CD19-BDCA-1+DC-SIGN+ blood myeloid DCs (mDCs) were analyzed in CP subjects with or without existing acute coronary syndrome and in healthy controls. FACS analysis revealed a significant increase in blood mDCs in the following order: healthy controls < CP < acute coronary syndrome/CP. Analysis of the blood mDC microbiome by 16S rDNA sequencing showed Porphyromonas gingivalis and other species, including (cultivable) Burkholderia cepacia. The mDC carriage rate with P. gingivalis correlated with oral carriage rate and with serologic exposure to P. gingivalis in CP subjects. Intervention (local debridement) to elicit a bacteremia increased the mDC carriage rate and frequency in vivo. In vitro studies established that P. gingivalis enhanced by 28% the differentiation of monocytes into immature mDCs; moreover, mDCs secreted high levels of matrix metalloproteinase-9 and upregulated C1q, heat shock protein 60, heat shock protein 70, CCR2, and CXCL16 transcripts in response to P. gingivalis in a fimbriae-dependent manner. Moreover, the survival of the anaerobe P. gingivalis under aerobic conditions was enhanced when within mDCs. Immunofluorescence analysis of oral mucosa and atherosclerotic plaques demonstrate infiltration with mDCs, colocalized with P. gingivalis. Our results suggest a role for blood mDCs in harboring and disseminating pathogens from oral mucosa to atherosclerosis plaques, which may provide key signals for mDC differentiation and atherogenic conversion.