Abstract
Bacterial DNAs are constantly detected in atherosclerotic plaques (APs), suggesting that a combination of chronic infection and inflammation may have roles in AP formation. A series of studies suggested that certain Gram-negative bacteria were able to interact with dendritic cell-specific intercellular adhesion molecule-3-grabbing non-integrin [DC-SIGN; cluster of differentiation (CD) 209] or langerin (CD207), thereby resulting in deposition of CD209s at infection sites. We wondered if Proteus mirabilis (a member of Proteobacteria family) could interact with APs through CD209/CD207. In this study, we first demonstrated that CD209/CD207 were also receptors for P. mirabilis that mediated adherence and phagocytosis by macrophages. P. mirabilis interacted with fresh and CD209s/CD207-expressing APs cut from human coronary arteries, rather than in healthy and smooth arteries. These interactions were inhibited by addition of a ligand-mimic oligosaccharide and the coverage of the ligand, as well as by anti-CD209 antibody. Finally, the hearts from an atherosclerotic mouse model contained higher numbers of P. mirabilis than that of control mice during infection-challenging. We therefore concluded that the P. mirabilis interacts with APs in human coronary arteries via CD209s/CD207. It may be possible to slow down the progress of atherosclerosis by blocking the interactions between CD209s/CD207 and certain atherosclerosis-involved bacteria with ligand-mimic oligosaccharides.
Highlights
Cardiovascular diseases caused by atherosclerosis are leading causes of mortality worldwide [1,2,3]
P. mirabilis was chosen to investigate the possible roles of bacterial infection in atherosclerosis
According to our previous works, O-antigen expression reduces the ability of several species of Gram-negative bacteria to target dendritic cells (DCs)-SIGN, langerin, and DEC-205 (CD205) in humans [43,44,45,46,47,48,49,50,51]
Summary
Cardiovascular diseases caused by atherosclerosis are leading causes of mortality worldwide [1,2,3]. Plaque formation is a hallmark of atherosclerosis [4] and is characterized by deposition of fat, cholesterol and calcium in arterial intima. It is believed that risk factors such as hyperlipidemia, hypertension, obesity, diabetes mellitus, and smoking can contribute to the formation of atherosclerotic plaques (APs) [6,7,8,9]. Studies have suggested that risk factors may add to early atherosclerotic lesions in human coronary arteries, which may result in macrophage recruitment [7, 10]. Several studies have shown that depletion of macrophages in animals results in dramatic reduction of atherosclerosis progression [21,22,23,24]. Macrophage depletion promotes AP stability and induces the regression of established APs [24]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
