Potential infectious etiologies of atherosclerosis: a multifactorial perspective. (Synopses).Coronary heart disease coronary heart disease: see coronary artery disease. coronary heart disease or ischemic heart disease Progressive reduction of blood supply to the heart muscle due to narrowing or blocking of a coronary artery (see atherosclerosis). (CHD CHD coronary heart disease. ChD abbr. Latin Chirurgiae Doctor (Doctor of Surgery) CHD, n.pr See disease, coronary heart. CHD canine hip dysplasia. ) contributes substantially to illness and death worldwide. Experimental studies demonstrate that infection can stimulate atherogenic ath·er·o·gen·ic adj. Initiating, increasing, or accelerating atherogenesis. atherogenic adjective Referring to the ability to initiate or accelerate atherogenesis—the deposition of atheromas, lipids, and processes. This review presents a spectrum of data regarding the link between CHD and infection. In addition, the need for improved diagnostic tools, the significance of multiple pathogens, and potential intervention strategies are discussed. ********** Cardiovascular disease (CVD CVD Cardiovascular disease, see there ) from all causes accounts for 29% of deaths worldwide and ranks second only to infectious and parasitic diseases (1). Deaths from CVD are often premature, and millions of nonfatal events result in disability. Atherosclerosis, a major component of CVD, has properly been considered a public health problem of industrialized in·dus·tri·al·ize v. in·dus·tri·al·ized, in·dus·tri·al·iz·ing, in·dus·tri·al·iz·es v.tr. 1. To develop industry in (a country or society, for example). 2. countries, accounting for an estimated one third of deaths overall (1). In the United States alone, atherosclerosis reportedly affects one in four persons, causing approximately 42% of all deaths. Approximately half of these are due to atherosclerotic coronary heart disease (CHD) (2-4). Atherosclerotic CVD now threatens developing countries as well, perhaps reflecting greater exposure to certain risk factors with rising standards of living (5). In India, for example, higher socioeconomic status correlates with increases in risk factors for and rates of CVD (5). Thus, the need for public health measures to limit its impact is expanding worldwide. Many persons with atherosclerosis, however, lack identifiable traditional risk factors. The well-recognized influences of smoking, diet and exercise, hypercholesterolemia Hypercholesterolemia Definition Hypercholesterolemia refers to levels of cholesterol in the blood that are higher than normal. Description Cholesterol circulates in the blood stream. It is an essential molecule for the human body. , hypertension, diabetes, and some genetic factors account for much less than 100% of disease. Despite continued reductions in the prevalence of modifiable risk factors, the steady, two-decade decrease in cardiovascular mortality rates in western industrialized countries has reached a plateau (2-4). In contrast with India, death rates for chronic (including atherosclerotic) and infectious diseases in the United States are inversely related to education and income (4-6). These observations fuel renewed interest in a link between atherosclerotic CVD and as-yet poorly defined environmental exposures, including infectious agents. If epidemiologic and laboratory evidence eventually supports the association, atherosclerosis could emerge as another noncommunicable chronic condition related to infection. How strong is the link? This review examines several candidate infectious agents, referring to reports and reviews by investigators summarizing their own work and a body of research. It discusses the potential roles of less well-established factors, interactions between infection and traditional risk factors, and unanswered questions on etiology, pathogenesis, and appropriate interventions. Developing an appropriate research agenda and public health response requires clarification of these issues. The following discussion provides a foundation for future studies. Infection as an Inflammatory Stimulus Atherogenic processes resemble many aspects of chronic inflammation (7), a response that may be promoted by microorganisms (8-10). Accordingly, reviews have revisited the venerable hypothesis of an infectious etiology (8,9,11). Experimental animal studies have shown that bacterial and viral agents could contribute to atherogenesis atherogenesis /ath·ero·gen·e·sis/ (-jen´e-sis) formation of atheromatous lesions in arterial walls.atherogen´ic ath·er·o·gen·e·sis n. . Both Chlamydia pneumoniae and cytomegalovirus cytomegalovirus (sī'təmĕg'əlōvī`rəs), member of the herpesvirus family that can cause serious complications in persons with weakened immune systems. (CMV CMV cytomegalovirus. CMV abbr. 1. controlled mechanical ventilation 2. cytomegalovirus Cytomegalovirus (CMV) ), for example, are widely distributed, can infect blood vessel wall cells, and exhibit persistence, latency, and recurrence of infection. However, the potential mechanisms of infection-induced atherosclerosis remain speculative. The earliest lesions of atherogenesis consist of arterial intimal intimal pertaining to or emanating from vascular intima. intimal bodies irregular mineralized masses covered by endothelium and protruding into the lumen of small arteries and arterioles of horses, especially in the intestinal accumulations of foam cells (primarily lipid-laden macrophages Macrophages White blood cells whose job is to destroy invading microorganisms. Listeria monocytogenes avoids being killed and can multiply within the macrophage. ) and T lymphocytes intermixed with smooth muscle cells (7). Infection could indirectly influence this process without infiltrating the artery wall (Figure 1). Host defenses to extravascular ex·tra·vas·cu·lar adj. 1. Located or occurring outside a blood or lymph vessel. 2. Lacking vessels; nonvascular. extravascular situated or occurring outside a vessel or the vessels. infections usually elicit proinflammatory cytokines and stimulate increased expression of cellular adhesion molecules, enhancing leukocyte leukocyte (l  `kəsīt'): see blood. leukocyte or white blood cell or white corpuscle adhesion. These cytokines could elicit a second wave or "echo" from inflammatory cells already at sites of atherogenesis, such as arterial wall cells or macrophages (12). Circulating microbial microbial pertaining to or emanating from a microbe. microbial digestion the breakdown of organic material, especially feedstuffs, by microbial organisms. products such as endotoxin Endotoxin A biologically active substance produced by bacteria and consisting of lipopolysaccharide, a complex macromolecule containing a polysaccharide covalently linked to a unique lipid structure, termed lipid A. can also produce an echo. Similarly, cytokines induced by extravascular infection (specifically interleukin-6) characteristically elicit hepatic synthesis of acute-phase reactants, some of which might promote atheromata complicated by thrombosis. Accordingly, levels of the acute-phase reactant reactant /re·ac·tant/ (re-ak´tant) a substance entering into a chemical reaction. re·ac·tant n. fibrinogen Fibrinogen The major clot-forming substrate in the blood plasma of vertebrates. Though fibrinogen represents a small fraction of plasma proteins (normal human plasma has a fibrinogen content of 2–4 mg/ml of a total of 70 mg protein/ml), its conversion correlate prospectively with risk for coronary events, and plasminogen activator inhibitor can promote clot stability by interfering with fibrinolysis fibrinolysis /fi·bri·nol·y·sis/ (fi?brin-ol´i-sis) dissolution of fibrin by enzymatic action.fibrinolyt´ic fi·bri·nol·y·sis n. pl. (7-10). Still, direct infection of the arterial wall could promote evolution of atherosclerotic lesions or precipitate acute cardiovascular events. These potential effects are discussed below. [FIGURE 1 OMITTED] Chlamydia pneumoniae Association Lines of evidence associating C. pneumoniae with atherosclerosis include seroepidemiologic studies, direct detection of bacterial components in atherosclerotic lesions, occasional isolation of viable organisms from coronary and carotid carotid /ca·rot·id/ (kah-rot´id) pertaining to the carotid artery, the principal artery of the neck. ca·rot·id n. atheromatous ath·er·o·ma n. pl. ath·er·o·mas or ath·er·o·ma·ta A deposit or degenerative accumulation of lipid-containing plaques on the innermost layer of the wall of an artery. tissue, and in vitro and animal experiments (reviewed in 8,9,13,14). Most cross-sectional and prospective studies have correlated seroprevalence seroprevalence Immunology The proportion of a population that is seropositive–ie, has been exposed to a particular pathogen or immunogen; the seropositivity of a population is calculated as the number of individuals who produce a particular antibody divided with myocardial infarction, chronic CHD, or stroke (8,13,15). However, the diagnostic criteria used, cut-off titers to define seropositivity Seropositivity is the presence of a certain antibody in a blood sample. A patient with seropositivity for a particular antigen or agent is termed seropositive. , adjustment for confounders (e.g., smoking), and sample sizes have varied notably. Indeed, as the interrelationships of smoking, C. pneumoniae infection, socioeconomic status, and atherosclerotic CVD are further investigated, epidemiologists continue to discuss which data adjustments are most appropriate (16-19). Interpretation of these studies is complicated by a lack of standardized serologic se·rol·o·gy n. pl. se·rol·o·gies 1. The science that deals with the properties and reactions of serums, especially blood serum. 2. methods and by interlaboratory variations and poor reproducibility in microimmunofiuorescence test results (2022). Temporal variations in antibody and antigen titers and the high prevalence of infection-more than 50% of adults have been infected at least once-also complicate interpretation (13). Still, more than 38 studies have reported a positive association between antibodies to C. pneumoniae and atherosclerotic disease. Only four studies did not confirm this association, including two recent, large, well-controlled investigations in which anti-C, pneumoniae immunoglobulin (Ig) G titers did not correlate prospectively with risk for coronary events in men or women (18,23-25). Additionally, the prospective Atherosclerosis Risk in Communities Study correlated IgG titers [greater than or equal to] 1:64 with incident CHD, but the relationship did not persist aider the data were adjusted for several cardiovascular risk factors (26). The strongest evidence associating C. pneumoniae with atherosclerotic CVD has been detection of bacterial components in atherosclerotic lesions. C. pneumoniae appears to have a tropism tropism (trōp`ĭzəm), involuntary response of an organism, or part of an organism, involving orientation toward (positive tropism) or away from (negative tropism) one or more external stimuli. for atheromata. It is rarely found in normal arteries or infectious and noninfectious granulomas and is documented more frequently in atheromata than in lung or other tissue from the same patient (13). Over 30 peerreviewed publications from investigators worldwide, using different diagnostic methods, have localized C. pneumoniae antigen, DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. , or both in atheromata; three reports did not find such components (8,27,28). Although detection rates have varied depending on the diagnostic methods used, the cumulative evidence supports existence of the organism in many lesions (8,27). These histologic findings, however, do not establish a causal role for C. pneumoniae in atherogenesis. Despite improved yields, culture of C. pneumoniae from atheromata remains difficult (8,13,29). Moreover, while the presence of a viable microbe microbe /mi·crobe/ (mi´krob) a microorganism, especially a pathogenic one such as a bacterium, protozoan, or fungus.micro´bialmicro´bic mi·crobe n. or its components at a site suggests that it may initiate or exacerbate disease, it does not prove pathogenesis. Detection of C. pneumoniae antigens or DNA in intimal thickening and fatty streaks of young adults and Alaskan Natives (the latter group at low risk for coronary atherosclerosis) supports an early microbial role in pathogenesis (30). Postmortem postmortem /post·mor·tem/ (post-mort´im) performed or occurring after death. post·mor·tem adj. Relating to or occurring during the period after death. n. See autopsy. ` the Alaskan retrospective study also positively correlated prior systemic infection with evidence of C. pneumoniae in atherosclerotic lesions; studies from Seattle reported a slightly higher detection rate in late-stage lesions (13). Recently, investigators reported a statistically significant relationship between the presence of C. pneumoniae and the severity of human coronary atherosclerosis (31). Although others observed no correlation between C. pneumoniae and disease severity in the same coronary artery, evidence of the bacterium was found in 80% of patients' arteries examined (32). Detection of C. pneumoniae in plaques has not correlated well with serology Serology The division of biological science concerned with antigen-antibody reactions in serum. It properly encompasses any of these reactions, but is often used in a limited sense to denote laboratory diagnostic tests, especially for syphilis. (8,33), so investigators have attempted to predict endovascular infection through polymerase chain reaction polymerase chain reaction (pŏl`ĭmərās') (PCR), laboratory process in which a particular DNA segment from a mixture of DNA chains is rapidly replicated, producing a large, readily analyzed sample of a piece of DNA; the process is (PCR PCR polymerase chain reaction. PCR abbr. polymerase chain reaction Polymerase chain reaction (PCR) ) detection of microbial DNA in peripheral blood monocytes monocytes, n.pl the largest of the white blood cells. They have one nucleus and a large amount of grayish-blue cytoplasm. Develop into macrophages and both consume foreign material and alert T cells to its presence. . The prevalence of C. pneumoniae DNA in these mononuclear mononuclear /mono·nu·cle·ar/ (-noo´kle-er) 1. having but one nucleus. 2. a cell having a single nucleus, especially a monocyte of the blood or tissues. mon·o·nu·cle·ar adj. cells has varied between studies (perhaps due to differences in both assay sensitivity and extraction procedures), but was 59% in coronary angiography patients compared with 44% in blood donors in one series; the rate appears to increase with age (33,34). Several but not all investigators have now correlated PCR-positive mononuclear cells with clinical CHD (34,35) or the detection of C. pneumoniae nucleic acid in atherosclerotic aortic aortic pertaining to or emanating from the aorta. See also aortic arch. aortic aneurysm occurs most often in dogs, where it is caused by Spirocerca lupi larvae, turkeys and primates, causing dyspnea, cyanosis and coughing. tissue (36). In vitro studies support hypotheses that C. pneumoniae might directly promote atherosclerosis (Figure 2). Infection of human endothelial cells augments their production of inflammatory cytokines and modulates expression of adhesion molecules, enhancing recruitment of inflammatory leukocytes to the vessel wall (8,37,38). Chiamydial endotoxins, much less virulent than those of enterobacteriaceae (e.g., Escherichia coli), can promote macrophage macrophage /mac·ro·phage/ (mak´ro-faj) any of the large, mononuclear, highly phagocytic cells derived from monocytes that occur in the walls of blood vessels (adventitial cells) and in loose connective tissue (histiocytes, phagocytic foam cell formation in vitro (8,39). Furthermore, C. pneumoniae heat shock protein heat shock protein n. Any of a group of cellular proteins that are produced under conditions of heat stress and help to stabilize other cellular proteins exposed to high temperatures. (HSP-60) can activate both macrophage tumor necrosis factor-alpha Tumor necrosis factor (TNF, cachexin or cachectin and formally known as tumor necrosis factor-alpha) is a cytokine involved in systemic inflammation and is a member of a group of cytokines that all stimulate the acute phase reaction. and expression of matrix-degrading proteinases that may weaken atherosclerotic plaques, rendering them susceptible to rupture and hence thrombosis. HSP-60 can induce proinflammatory activities in macrophages and vascular cells (e.g., endothelium endothelium /en·do·the·li·um/ (-the´le-um) pl. endothe´lia the layer of epithelial cells that lines the cavities of the heart, the serous cavities, and the lumina of the blood and lymph vessels. , smooth muscle cells) and promote oxidation of lipoproteins by macrophages (10,40). [FIGURE 2 OMITTED] Animal experiments have also explored the link between C. pneumoniae and atherosclerosis. Intranasal or intratracheal C. pneumoniae inoculation of New Zealand white rabbits fed a normal diet produced inflammatory changes of the aorta (41-43). Although one group did not observe foam cells in inflamed sites, another has reported foam cells in lesions resembling early atherosclerosis. Macrolide antibiotic therapy appeared to dampen the additive effects of hypercholesterolemia and serial C. pneumoniae infection (9,41,43); macrolide antibiotics with antichlamydial activity administered early in infection could prevent changes, but delayed treatment had little or no effect (41). These observations, along with diminished effects on cholesterol-induced lesions (in the absence of infection), suggest antimicrobial mechanisms of action. Inflammatory changes without foam cell lesions and typical atheromata have also been observed in C. pneumoniae-infected mice fed a normal chow diet (13,44). However, C. pneumoniae infection does potentiate po·ten·ti·ate v. 1. To make potent or powerful. 2. To enhance or increase the effect of a drug. 3. To promote or strengthen a biochemical or physiological action or effect. the atherogenic effects of hypercholesterolemia in three mouse models. Intranasal inoculation of apolipoprotein apolipoprotein /apo·lipo·pro·tein/ (ap?o-lip?o-pro´ten) any of the protein constituents of lipoproteins, grouped by function in four classes, A, B, C, and E. ap·o·lip·o·pro·tein n. E-deficient mice fed a regular chow diet accelerated aortic arch plaque development (45); similar changes occurred in low-density lipid receptor-deficient mice on a high-cholesterol regime but not those on a regular diet (46). In C57BL/6J mice fed a high-fat, high-cholesterol diet, C. pneumoniae infection accelerated the development of atherosclerotic lesions in the aortic sinus (44,47). Although experimental animal lesions do not mimic human atherogenesis exactly, similarities have prompted human intervention studies directed against C. pneumoniae infection. Three prospective therapeutic trials have been reported, but all had insufficient statistical power to resolve the question (reviewed in 23,48). One described a fivefold decrease in cardiovascular events among seropositive seropositive /se·ro·pos·i·tive/ (-poz´i-tiv) showing positive results on serological examination; showing a high level of antibody. se·ro·pos·i·tive adj. men treated with short courses of azithromycin after myocardial infarction (MI) (49). In a double-blind study of unstable angina or non-Q wave infarction, patients treated for 30 days with roxithromycin had a decrease in cardiovascular events that waned by 6 months (50). Additionally, when 302 MI survivors with C. pneumoniae antibody titers >1:16 were treated for 3 months with azithromycin, investigators observed no significant reduction in recurrent events at 6 and 24 months, although a gradual decline in serologic (inflammatory) markers of cardiovascular risk was initially seen (51,52). Three disparate retrospective, multivariate analyses of antibiotic use and CHD risk, using different methods and populations, also reported both positive and negative correlations between past antibiotic prescriptions and CHD or MI risk (48). At this time, any specific effects of treatment remain unclear (23). Cytomegalovirus Links Almost two decades ago, several investigators suggested a role for herpesviruses Herpesviruses A family of viruses responsible for cold sores, chicken pox, and genital herpes. Mentioned in: Skin Resurfacing in CVD. Lesions resembling human atheromata developed in pathogen-free chickens infected with Marek disease virus, an avian herpesvirus herpesvirus, any of the family (Herpesviridae) of common DNA-containing viruses, many of which are associated with human disease. See cytomegalovirus; Epstein-Barr virus; herpes simplex; herpes zoster. ; immunization immunization: see immunity; vaccination. with turkey herpesvirus was protective. In vitro, infected arterial smooth muscle cells accumulated cholesterol. Since then, seroepidemiologic, histopathologic, in vitro, and animal studies have investigated possible links between human atherosclerosis and human herpesviruses, primarily CMV (reviewed in 14,15,53-55). Studies have linked CMV to three arterial diseases: primary atherosclerosis, post-angioplasty restenosis, and post-transplantation arteriosclerosis arteriosclerosis (ärtĭr'ēōsklərō`sis), general term for a condition characterized by thickening, hardening, and loss of elasticity of the walls of the blood vessels. . For each, seroepidemiology has relied on single measures of viral IgG antibodies, which only indicate previous exposure. Similar to C. pneumoniae, the worldwide ubiquity of lifelong, latent CMV infections, temporal variations in antibody or antigen titers, and viral reactivation reactivation to become active after a period of quiescence or, as in bacterial and viral infections, latency. cross reactivation could mask or falsely highlight causality. These factors may explain inconsistencies in cross-sectional, retrospective, and prospective studies attempting to correlate seroprevalence or higher IgG titer with primary atherosclerosis (10,14,15,24,56-58). Differing disease classifications (based on histopathology his·to·pa·thol·o·gy n. The science concerned with the cytologic and histologic structure of abnormal or diseased tissue. Histopathology The study of diseased tissues at a minute (microscopic) level. of vascular surgery, general autopsy or atherectomy specimens, angiography, noninvasive carotid imaging, or clinical history) and epidemiologic methods (small sample sizes, diminished statistical significance after data adjustment, nonuniform consideration of other risk factors) also limit interpretation (14,53,55). Results are conflicting even in prospective, nested case-control investigations focused on but not limited to male Caucasians. The Atherosclerosis Risk in Communities Study correlated preexisting pre·ex·ist or pre-ex·ist v. pre·ex·ist·ed, pre·ex·ist·ing, pre·ex·ists v.tr. To exist before (something); precede: Dinosaurs preexisted humans. v.intr. high anti-CMV titers and traditional risk factors with carotid atherosclerosis, incident MI or CHD death (relative risk 1.76; 95% confidence interval 1.00-3.11) during a 5-year follow-up period (57). In contrast, the 12-year Physician's Health Study found no association between antibody prevalence and subsequent first MI or thromboembolic thromboembolic pertaining to or emanating from thromboembolism. thromboembolic meningoencephalitis see hemophilosis. thromboembolic parasitism see thromboembolic colic. stroke, or elevated C-reactive protein (56), while the Cardiovascular Health Study correlated antibodies to herpes simplex virus Herpes simplex virus A virus that can cause fever and blistering on the skin, mucous membranes, or genitalia. Mentioned in: Conjunctivitis herpes simplex virus type 1 but not CMV or C. pneumoniae with incident events in the elderly (59). In post-angioplasty restenosis, preexisting and high-titer IgG CMV antibodies predicted restenosis (43% vs. 8%) independently of CVD risk factors, but the sample size was small and no follow-up titer analysis was included (53,60,61). Cross-sectional and prospective studies also link CMV to post-transplant arteriosclerosis (14,62-64), in which a subset of immunosuppressed Immunosuppressed A state in which the immune system is suppressed by medications during the treatment of other disorders, like cancer, or following an organ transplantation. Mentioned in: Fifth Disease recipients manifests accelerated disease in the first year. Evidence of CMV in these disease entities, however, does not prove causality. Different techniques have detected viral antigens and nucleic acids in 0% to 94% of plaques (mean 40%-50%, usually localized to the periphery of advanced plaques), but also in most of the uninvolved un·in·volved adj. Feeling or showing no interest or involvement; unconcerned: an uninvolved bystander. Adj. 1. arteries from the same patients and > 50% of random arterial specimens (14,54,65). A recent PCR analysis of coronary arteries and venous bypass graft occlusions found no CMV in specimens but did detect C. pneumoniae (66). Reports of viral nucleic acids in post-transplantation arteriosclerotic ar·te·ri·o·scle·ro·sis n. A chronic disease in which thickening, hardening, and loss of elasticity of the arterial walls result in impaired blood circulation. It develops with aging, and in hypertension, diabetes, hyperlipidemia, and other conditions. lesions, using different techniques, are not uniform (62,63,67,68). In vitro observations support a potential etiologic role for CMV in atherosclerotic CVD. Indirectly, virally provoked paracrine paracrine /para·crine/ (par´ah-krin) 1. denoting a type of hormone function in which hormone synthesized in and released from endocrine cells binds to its receptor in nearby cells and affects their function. 2. expression of chemokines and growth factors might stimulate migration of smooth muscle cells from the adventitia adventitia /ad·ven·ti·tia/ (ad?ven-tish´e-ah) 1. adventitial. 2. tunica adventitia. ad·ven·ti·tia n. and media into the intima intima /in·ti·ma/ (in´ti-mah) 1. innermost. 2. tunica intima vasorum.in´timal in·ti·ma n. pl. , along with smooth muscle cell proliferation, both important components of atherogenesis and restenosis (54). Direct infection of arterial smooth muscle cells appears to augment expression of the CMV chemokine receptor US28 (69). Investigators have also reported inhibited apoptosis and augmented cellular proliferation when the virally directed protein IE2-84 binds or inhibits transcriptional activity of p53 (54,70). Direct CMV infection may also enhance uptake of oxidized oxidized having been modified by the process of oxidation. oxidized cellulose see absorbable cellulose. low-density lipoprotein by macrophages and smooth muscle cells, promoting foam cell development; through its immediate-early gene products, CMV may increase uptake of modified low-density lipoprotein and stimulate type A scavenger receptor gene expression by smooth muscle cells (54). CMV animal experiments also do not duplicate human disease but can provide insight on causality. While CMV infection of rats several months preceding or during balloon injury to the carotid artery augmented neointimal thickening (54,71), infection 14 days after injury did not (72). In ApoE-deficient mice, systemic infection was reported to increase atherosclerotic lesion size (54); local infection accentuated subendothelial inflammation and coronary arteriosclerosis in rat cardiac and aortic allografts allografts (al´  graf´ts),n.pl the transplantation of tissue between genetically nonidentical individuals of the same species. , apparently reduced by ganciclovir (DHPG DHPG 3,4-Dihydroxyphenylglycol DHPG Deutsche Handels- und Plantagen-Gesellschaft der Suedsee-Inseln zu Hamburg ) treatment (55,73). Thus, CMV remains potentially linked to the promotion of atherosclerotic CVD. Roles for Other Microbes? Oral Pathogens During the past decade, several reports have suggested a relationship between chronic oral infections (e.g., periodontitis periodontitis Inflammation of soft tissues around the teeth (see tooth). Poor dental hygiene leads to deposition of bacterial plaque on the teeth below the gum line, irritating and eroding nearby tissues. ) and cardiovascular disease (74). Among the Pima Indians, periodontitis emerged as an independent risk factor for atherosclerotic events (74). Other studies described an assoclarion between tooth loss related to periodontal disease and CVD (75), while persons with diabetes have a higher incidence of infections (including oral) and atherosclerotic CVD. Pathogens potentially associated with CVD include Porphyromonas gingivalis, Bacteroides forsythus, Campylobacter Campylobacter Genus of gram-negative spiral-shaped bacteria infecting mammals. Many species, especially C. fetus, cause miscarriage in sheep and cattle. C. jejuni is a common cause of food poisoning. Sources include meats (particularly chicken) and unpasteurized milk. rectus rectus /rec·tus/ (rek´tus) [L.] straight. rectus [L.] straight. rectus abdominis muscle see Table 13.2. ocular rectus muscle see Table 13.1F. , Fusobacterium nucleatum, Treponema Treponema /Trep·o·ne·ma/ (trep?o-ne´mah) a genus of bacteria (family Spirochaetaceae), often pathogenic and parasitic; it includes the etiologic agents of pinta(T. cara´teum), syphilis(T. spp., and Prevotella species. At least two, P. gingivalis (42%) and Streptococcus streptococcus (strĕp'təkŏk`əs), any of a group of gram-positive bacteria, genus Streptococcus, some of which cause disease. sanguis (12%), were identified in the periphery of atherosclerotic plaques by immunologic stain (65). Another group detected [greater than or equal to] 2 periodontal pathogens by PCR for 16SrDNA in 13 of 22 endarterectomy Endarterectomy Definition Endarterectomy is an operation to remove or bypass the fatty deposits, or blockage, in an artery narrowed by the buildup of fatty tissue (atherosclerosis). specimens (76). Researchers have hypothesized that certain persons with a hyperinfiammatory phenotype are at increased risk for both periodontitis and atherosclerotic CVD, with dietary and other factors possibly altering disease progression (reviewed in 74). Like C. pneumoniae, oral bacteria might affect atherosclerosis through direct invasion of vascular endothelial cells or indirectly through products that stimulate proinflammatory and prothrombotic functions of vascular cells. For example, P. gingivalis and S. sanguis both express a platelet-aggregation factor (74). However, the true ]inks between oral bacteria and atherosclerotis are still to be determined, requiring further laboratory and carefully adjusted clinical studies. Helicobacter pylori, Herpes Simplex Virus (HSV (Hue Saturation Value) A color space similar to HSB. See HSB. HSV - hue, saturation, value ), and Other Pathogens The literature linking H. pylori, HSV-1, and HSV-2 to atherogenesis is less extensive than for C. pneumoniae or CMV (9,14,15,25,53,59). H. pylori has not been detected in human atheromata, and available seroepidemiologic data conflict, weakening the proposed etiologic association (9,14,15,25). Social factors linked to CVD and H. pylori infection, including socioeconomic status, may confound these reported associations, and data were not adjusted appropriately in most studies (15,77). Nonetheless, an indirect role for H. pylori in the pathogenesis of atherosclerosis has not been disproved. Unlike CMV, HSV-1 has a predilection for epithelial and neuronal tissues, not mononuclear cells. Seroepidemiologic and histopathologic study results vary widely (53,55-57,59). For example, the prospective, nested Atherosclerosis Risk in Communities Study found no association between incident CHD and preexisting HSV-1 antibodies (57). Although consistent with most other analyses (25,53,56), this contrasts with positive HSV-1 results from the elderly Cardiovascular Health Study cohort (59). In summary, laboratory investigations suggest but do not conclude that herpesviridae could directly and indirectly induce several endothelial endothelial /en·do·the·li·al/ (-the´le-al) pertaining to or made up of endothelium. Endothelial A layer of cells that lines the inside of certain body cavities, for example, blood vessels. cell responses involved in atherothrombosis (78). The long-term effects of commonly silent or chronic herpesvirus or other persistent infections render plausible a potential role in atherosclerotic CVD. Key Issues for Future Research on Potential Infectious Etiologies of CVD Chronic diseases, including atherosclerosis, have complex causal mechanisms. Accepting the infection hypothesis for atherosclerotic CVD depends on several key issues, including those discussed below. Concept of Multiple Pathogens Long-term exposure to proinflammatory, toxic, or transforming microbes and their products is a possible mechanism for infection-related atherosclerotic CVD, as is exposure to the aggregate effects of coinfections, detected or undetected. Screening for C. pneumoniae, CMV, and HSV-1, one group of investigators detected 2-3 microbes in 32% of atherosclerotic lesions, mostly in plaque shoulders and infammatory infiltrates; 71% of the organisms identified were C. pneumoniae. Expanding the analysis, this group reported a range of 1-4 microbes in atheromata, including the oral pathogens P. gingivalis and S. sanguis (65). These findings do not confirm pathogenesis, but do highlight the possibility of synergy between organisms or a cumulative infectious effect in atherogenesis. As emphasized at a 1998 National Institutes of Health workshop, research on associations between infection and atherosclerotic CVD must consider the coinfluence of multiple infectious agents (79). Investigators are testing the hypothesis of dose-response relationships between atherosclerotic CVD and the number of microbes to which a person has been exposed (54). For example, a recent prospective cohort related expression of antibodies against several pathogens to MI or death in patients with angiographically documented coronary artery disease coronary artery disease, condition that results when the coronary arteries are narrowed or occluded, most commonly by atherosclerotic deposits of fibrous and fatty tissue. (80). Perhaps cardiovascular risk increases with cumulative or earlier exposure to more or specific microbes (potentially atherogenic). C. pneumoniae infection of cells in vitro may activate a reporter gene controlled by the CMV major immediate-early promoter (81). In vivo co-infection might reactivate re·ac·ti·vate v. 1. To make active again. 2. To restore the ability to function or the effectiveness of. re·ac latent CMV infection, increase the activity of persistent virus, or both. Integration of Infection into a Multifactorial multifactorial /mul·ti·fac·to·ri·al/ (mul?te-fak-tor´e-al) 1. of or pertaining to, or arising through the action of many factors. 2. View of CHD Risk Infection as a potential CVD risk factor requires consideration in context. Although interventions targeting traditional risk factors have often reduced clinical disease, considerable impact persists. Perhaps microbes enhance the harmful effects of traditional causes; for example, foam cells in dyslipedemia-induced lesions might respond to bacterial inflammatory products. Genetic and gender predispositions could determine an association between periodontitis and atherosclerosis (74). Physical activity, smoking, and lipids could modulate immune status and thus individual susceptibility to acute, reactivated, or persistent infections that are potentially important in atherogenesis (4,22,79). Gender and nutrition can each influence immune responses to infection and atherothrombotic disease. Supporting sex determination of atherosclerotic CVD, the Pathological Determinants of Atherosclerosis in Youth study found more extensive fatty streaks in the right coronary arteries and thoracic aortas of men, but greater abdominal aortic disease in women (82). Among primates, which have diet-induced atheromata resembling those of humans, premenopausal pre·me·no·paus·al adj. Of or relating to the years or the stage of life immediately before the onset of menopause. premenopausal adjective female monkeys develop less atherosclerosis than males (83); females with low levels of social stress developed the least disease, stressed males the most. Could gender affect susceptibility to or immune response following atherogenesis-inducing infection? Reports that sex steroid hormones (e.g., estrogen) can modulate endothelial cell production of microbial-induced proinflammatory factors such as cytokines, endothelin-1, angiotensin II, and nitric oxide suggest a single common pathway (84). Nutritional effects on atherosclerosis also extend beyond hypercholesterolemia, hypertriglyceridemia, and obesity. Years of rigorous investigation have linked antioxidant consumption to coronary artery disease, and the antioxidant vitamin E suppresses viral infection (85). However, results of antioxidant vitamin supplementation on reduction of atherosclerotic risk have generally proven disappointing (85,86). Nevertheless, if nutrition affects inflammatory response to potentially atherogenic infections, adjunct therapies could exploit nutritional supplementation in high-risk populations. Methods Limit Conclusions Clarification of the above issues requires improved analytic tools. Current reagents and methods are not sufficient to prove or refute a potential infectious etiology in atherosclerotic CVD. Public health officials, laboratory investigators, and clinicians participating in two 1998 workshops emphasized that deficiencies in these tools weaken conclusions (22,79). As an example, culturing C. pneumoniae from clinical specimens is difficult, and serology has relied on tedious, reagent- and reader-dependent microimmunofiuorescence; immunocytochemistry im·mu·no·cy·to·chem·is·try n. The study of cell constituents by immunologic methods, such as the use of fluorescent antibodies. immunocytochemistry and PCR substrates and techniques vary between laboratories. Temporal fluctuations in bacteremia bacteremia: see septicemia. bacteremia Presence of bacteria in the blood. Short-term bacteremia follows dental or surgical procedures, especially if local infection or very high-risk surgery releases bacteria from isolated sites. or viremia viremia /vi·re·mia/ (vi-re´me-ah) the presence of viruses in the blood. vi·re·mi·a n. The presence of viruses in the bloodstream. can alter PCR analysis of peripheral blood monocytes, and no assay yet differentiates the presence of any microbe from its role in pathogenesis. Study comparability and reproducibility will require standardized, sensitive, and specific reagents (20-22). Adding to the ambiguity, human studies have focused on late-stage atherothrombotic disease, while animal studies have concentrated on earlier stages of atherogenesis (i.e., initiation). These issues are critical for translating experimental evidence to human disease because childhood exposures to ubiquitous infections are common, frequencies of reexposure are unknown, and the age at which microbes might influence atherosclerosis is uncertain. Additionally, available analytic tools do not characterize the roles of past, active, persistent latent, or recurrent infection. Recommendations from a recent international workshop sponsored by the Centers for Disease Control and Prevention Centers for Disease Control and Prevention (CDC), agency of the U.S. Public Health Service since 1973, with headquarters in Atlanta; it was established in 1946 as the Communicable Disease Center. and the Laboratory Centre for Disease Control (Canada) seek to improve the reproducibility and comparability of C. pneumoniae investigations (20,21). In the future, more sensitive and specific assays, including microarray technologies (e.g., pathogen-specific identification chip) may also enhance specimen analysis (21). Antimicrobial Therapy: Potential Benefits and Risks If evidence substantiates a link between infection and atherosclerotic CVD, targeted antimicrobial therapy might mitigate atherosclerosis in persons at risk; controlling infections might decrease the impact of disease. Inappropriate antimicrobial therapy, however, could accelerate development of resistance in both associated and nontargeted organisms, without changing disease outcomes. Studies linking level of antibiotic use and prevalence of resistant bacteria in hospitals and communities justify these concerns; trends toward more frequent erythromycin- and penicillin-resistant pneumococci with higher antibiotic consumption reversed when macrolide use was reduced (87-89). Although clinical antibiotic resistance in C. pneumoniae has not been described, certain characteristics-its sometimes asymptomatic, chronic, or recurrent nature-may favor this development (87). Indeed, laboratories have described antibiotic-resistant strains of C. trachomatis, a closely related organism. Antimicrobial delivery to intracellular C. pneumoniae is not well described, efficacy during different stages of the life cycle (e.g., infectious elementary bodies, replicative reticulate bodies) is unclear (8,87), and antibody titers do not reliably track infection (87). Whether antibiotics can eradicate or suppress C. pneumoniae replication, particularly in the persistent or latent state, remains conjectural con·jec·tur·al adj. 1. Based on or involving conjecture. See Synonyms at supposed. 2. Tending to conjecture. con·jec . Clinically, azithromycin resistance in any Chlamydia chlamydia (kləmĭd`ēə), genus of microorganisms that cause a variety of diseases in humans and other animals. Psittacosis, or parrot fever, caused by the species Chlamydia psittaci, spp. has not been extensively evaluated; however, a transient, rebound increase in resistant pneumococci has been observed following single-dose therapy for trachoma trachoma (trəkō`mə), infection of the mucous membrane of the eyelids caused by the bacterium Chlamydia trachomatis. Trachoma infects more than 150 million people worldwide. (90), and increased carriage of macrolide-resistant microbes has accompanied macrolide therapy for otitis media (91). Widespread or long-term antibiotic use in atherosclerotic CVD could adversely affect beneficial commensals that provide nutrients and inhibit pathogen overcolonization, as well as increase antimicrobial resistance in unrelated microbes. Similar issues may emerge with antiviral therapies. Vaccines If antibiotics or antiviral agents do not limit the pathogenesis of acute, latent, or chronic active infections, vaccines are an alternative approach to prevention or treatment. For example, anti-Chlamydia vaccines have been sought for decades. Recent advances in immunologic techniques and description of the complete C. pneumoniae genomic sequence permit identification of antigens that may elicit protective immunity (92,93). However, poor understanding of host defense mechanisms still impedes the development and application of C. pneumoniae and other microbial vaccines. The essential components of humoral hu·mor·al adj. 1. Relating to body fluids, especially serum. 2. Relating to or arising from any of the bodily humors. Humoral Pertaining to or derived from a body fluid. and cell-mediated immune responses associated with protection must be identified before prophylactic vaccine trials against any pathogen are implemented. To minimize the risk of stimulating autoimmunity, concerns for cross-reactivity during immunization must be addressed as vaccines against C. pneumoniae and other pathogens are pursued (94,95). Conclusion The current interest in infectious causes of atherosclerosis revives a venerable hypothesis. If true, the global prevention and intervention opportunities could be substantial (demonstrated with H. pylori in peptic ulcer disease Peptic ulcer disease (PUD) A stomach disorder marked by corrosion of the stomach lining due to the acid in the digestive juices. Mentioned in: Indigestion peptic ulcer disease See Duodenal ulcer, Gastric ulcer, GERD. ). However, the seroepidemiologic data that triggered this renaissance lack robustness because of confounding factors (e.g., socioeconomic status, smoking) and publication bias towards more positive results. Indeed, more rigorously controlled observational and prospective studies appear to weaken the seroepidemiologic links between infection and atherosclerosis. Nonetheless, studies of the vascular biology of infection clearly demonstrate that agents such as C. pneumoniae and CMV can elicit potentially pathogenic functions of vascular wall cells and leukocytes in atheromata, supporting the hypothesis that such infections may potentiate atherosclerotic CVD. Results will soon be available from prospective clinical trials that critically examine whether macrolide antibiotic therapy reduces recurrent coronary events or modifies CHD. However, these trials will not determine eradication or suppression of one or more microbes, optimal timing of intervention, and duration of benefits, and thus fall short of providing convincing evidence for a causal relationship between infectious agents and atherosclerosis. These trials will neither define the portion of atherosclerotic CVD caused by infection nor indicate benefits or risks of vaccine therapy. Routine use of antibiotics to prevent atherosclerotic events should await evidence from sufficiently powered and well-designed clinical trials. Premature, inappropriate use has potential adverse effects. Clearly, research on potential infection-atherosclerosis links must continue, complemented by a public health approach. Participants in recent workshops and symposia have evaluated gaps in the evidence and outlined ways to fill them (22,23,79,96,97). All agree on the need for more specific, sensitive, and standardized reagents and assays (20-22). Research must also address interactions between infection, traditional risk factors, and other determinants of host susceptibility, such as gender and nutrition, in multifactorial atherosclerotic CVD (7,22,79,96). 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Pediatr Infect Dis J 1998;17:880-5. (92.) Stephens RS. Chlamydial genomics and vaccine antigen discovery. J Infect Dis 2000;181 Suppl 3:521-3. (93.) Murdin AD, Dunn P, Sodoyer R, Wang J, Caterini J, Brunham RC, et al. Use of mouse lung challenge model to identify antigens protective against Chlamydia pneumoniae lung infection. J Infect Dis 2000;181 Suppl 3:544-51. (94.) Craighead JE. Report of a workshop: disease accentuation after immunization with inactivated inactivated rendered inactive; the activity is destroyed. inactivated viruses treated so that they are no longer able to produce evidence of growth or damaging effect on tissue. microbial vaccines. J Infect Dis 1975;131:749-54. (95.) Bachmaier K, Neu N, de la Maza LM, Pal S, Hessel A, Penninger JM. Chlamydia infections and heart disease links through antigenic mimicry. Science 1999;283:1335-9. (96.) Dodet B, Plotkin SA, Ross R, Falk E, Kritchevsky D, Valtonen VV, et al. Proceedings of an International Symposium on Infection and Atherosclerosis. Les Pensieres, Veyrier-du-Lac, France, December 6-9, 1998. Am Heart J 1999;138(5 Pt 2):S417-560. (97.) Gilbert DN, Ewald PW, Cochran GM, Grayston JT, Saikku P, Leinonen M, et al. Preface. J Infect Dis 2000;181 Suppl 3:S393586. Siobhan O'Connor *, Christopher Taylor, ([dagger]) Lee Ann Campbell, ([double dagger]) Stephen Epstein, ([sections] and Peter Libby ([paragraph]) * Centers for Disease Control and Prevention, Atlanta, GA, USA; ([dagger]) National Institute for Allergy and Infectious Diseases, National Institutes of Health, Bethesda, Maryland, USA; ([double dagger]) University of Washington, Seattle, Washington, USA; ([sections]) MedStar Research Institute, Washington Hospital Center Washington Hospital Center Washington Hospital Center is the largest private hospital in Washington, D.C.. A member of MedStar Health, the not-for-profit Hospital Center is licensed for 926 beds and, on average, operates near capacity. , Washington, DC, USA; and ([paragraph]) Brigham and Women's Hospital Brigham and Women's Hospital (BWH) is a hospital in the Longwood Area of the Boston, Massachusetts neighborhood of Mission Hill. With Massachusetts General Hospital, it is one of the two founding members of Partners HealthCare. , Harvard Medical School Harvard Medical School (HMS) is one of the graduate schools of Harvard University. It is a prestigious American medical school located in the Longwood Medical Area of the Mission Hill neighborhood of Boston, Massachusetts. , Boston, Massachusetts, USA Dr. O'Connor is Assistant to the Director of the National Center for Infectious Diseases, Centers for Disease Control and Prevention. Her research interests include identification, characterization, and prevention of infectious diseases that may trigger or determine chronic illness and disability. Address for correspondence: Siobhan O'Connor; Centers for Disease Control and Prevention, 1600 Clifton Rd. NE, Mailstop C-12, Atlanta, GA 30333, USA; fax: 404-639-3039; e-mail: sbo5@cdc.gov |
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