Atherosclerotic cardiovascular diseases, chronic inflam-matory diseases of multifactorial etiology, are the lead-ing cause of death worldwide. In the last decade, more infectious agents, labeled as "infectious bu...Atherosclerotic cardiovascular diseases, chronic inflam-matory diseases of multifactorial etiology, are the lead-ing cause of death worldwide. In the last decade, more infectious agents, labeled as "infectious burden", rather than any single pathogen, have been showed to con-tribute to the development of atherosclerosis through different mechanisms. Some microorganisms, such as Chlamydia pneumoniae(C. pneumoniae), human cytomegalovirus, etc. may act directly on the arterial wall contributing to endothelial dysfunction, foam cell formation, smooth muscle cell proliferation, platelet ag-gregation as well as cytokine, reactive oxygen specie, growth factor, and cellular adhesion molecule produc-tion. Others, such as Helicobacter pylori(H. pylori), in-fluenza virus, etc. may induce a systemic inflammation which in turn may damage the vascular wall(e.g., by cytokines and proteases). Moreover, another indirect mechanism by which some infectious agents(such as H. pylori, C. pneumoniae, periodontal pathogens, etc.) may play a role in the pathogenesis of atherosclero-sis is molecular mimicry. Given the complexity of the mechanisms by which each microorganism may con-tribute to atherosclerosis, defining the interplay of moreinfectious agents is far more difficult because the pro-atherogenic effect of each pathogen might be ampli-fied. Clearly, continued research and a greater aware-ness will be helpful to improve our knowledge on the complex interaction between the infectious burden and atherosclerosis.展开更多
基金Supported by Grants to R.Sessa from Center for Social Disease Research,"Sapienza"University,Rome
文摘Atherosclerotic cardiovascular diseases, chronic inflam-matory diseases of multifactorial etiology, are the lead-ing cause of death worldwide. In the last decade, more infectious agents, labeled as "infectious burden", rather than any single pathogen, have been showed to con-tribute to the development of atherosclerosis through different mechanisms. Some microorganisms, such as Chlamydia pneumoniae(C. pneumoniae), human cytomegalovirus, etc. may act directly on the arterial wall contributing to endothelial dysfunction, foam cell formation, smooth muscle cell proliferation, platelet ag-gregation as well as cytokine, reactive oxygen specie, growth factor, and cellular adhesion molecule produc-tion. Others, such as Helicobacter pylori(H. pylori), in-fluenza virus, etc. may induce a systemic inflammation which in turn may damage the vascular wall(e.g., by cytokines and proteases). Moreover, another indirect mechanism by which some infectious agents(such as H. pylori, C. pneumoniae, periodontal pathogens, etc.) may play a role in the pathogenesis of atherosclero-sis is molecular mimicry. Given the complexity of the mechanisms by which each microorganism may con-tribute to atherosclerosis, defining the interplay of moreinfectious agents is far more difficult because the pro-atherogenic effect of each pathogen might be ampli-fied. Clearly, continued research and a greater aware-ness will be helpful to improve our knowledge on the complex interaction between the infectious burden and atherosclerosis.
