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Mem Inst Oswaldo Cruz, Rio de Janeiro, Vol. 98, No. 3, April, 2003, pp. 407-411 Increased Plasma Levels of Tumor Necrosis Factor-α in Asymptomatic/"Indeterminate" and Chagas Disease Cardiomyopathy Patients Renata Cristina Ferreira, Barbara M Ianni*, Lucia CJ Abel, Paula Buck*, Charles Mady*, Jorge Kalil**, Edecio Cunha-Neto**/+ Laboratório de Imunologia *Divisão de Cardiopatias Gerais, Instituto
do Coração **Divisião de Imunologia Clínica e Alergia,
Departamento de Clínica Médica, Faculdade de Medicina, Universidade
de São Paulo, Av. Dr. Eneas de Carvalho Aguiar,44, Bloco II, 9º andar,
05403-000 São Paulo, SP, Brasil Supported by grants from Fapesp, CNPq and the Howard Hughes Medical Institute. Receved 18 September 2002 Code Number: oc03090 We compared plasma tumor necrosis factor-α (TNF-α) levels among asymptomatic/"indeterminate" Chagas disease patients (ASY) and patients across the clinical spectrum of chronic Chagas disease cardiomyopathy (CCC). Idiopathic dilated cardiomyopathy (DCM) patients and normal controls (NC) were included as controls. ASY Chagas disease patients had significantly higher plasma TNF-α levels than NC. TNF-α levels among severe CCC patients with significant left ventricular (LV) dysfunction were similar to those of DCM patients, showing average 2-fold higher levels than CCC patients without LV dysfunction and ASY patients, and 8-fold higher levels than NC. In Chagas disease, chronic TNF-α production prior to heart failure may play a role in CCC progression. Key words: Chagas disease cardiomyopathy - tumor necrosis factor-alpha - Trypanosoma cruzi Up to 30% of the 18-20 million individuals in Latin America infected with the intracellular protozoan parasite Trypanosoma cruzi develop an inflammatory cardiomyopathy (chronic Chagas disease cardiomyopathy, CCC), 15-30 years after initial infection. A fraction of those will develop dilated cardiomyopathy with significant left ventricular (LV) dysfunction. Survival after presentation of heart failure in CCC is at least 2-fold shorter than that observed in idiopathic dilated cardiomyopathy (DCM) (Mady et al. 1994, Bestetti & Muccillo 1997). A diffuse myocarditis with extensive fibrosis and very scarce T. cruzi parasites (Higuchi et al. 1993) are the hallmark of CCC heart lesions (Mady et al. 1999). The mononuclear infiltrate produces significant amounts of proinflammatory and T1-type cytokines like tumor necrosis factor-a (TNF-α) and Interferon-g (IFN-γ) (Reis et al. 1993, 1997, Abel et al. 2001). Parasites are seldom found in the heart lesions of CCC (Higuchi et al. 1993), and autoimmune T cells crossreactively recognizing cardiac myosin and T. cruzi proteins were isolated from CCC heart tissue (Cunha-Neto et al. 1996). The majority of infected individuals, however, remain asymptomatic, in the so-called "indeterminate" form of the disease (65-70%) or develop its digestive form (5%). The intense immigration from endemic areas has posed transfusion-related infection with T. cruzi as a potential threat in the United States (Kirchhoff 1989, Shulman et al. 1997). Increased circulating levels of TNF-α were observed in heart failure patients from diverse aetiologies (Levine et al. 1990, Ferrari et al. 1995, Torre-Amione et al. 1996). It is likely that the predominant mechanism of upregulation of TNF-α production is secondary to advanced heart failure itself, such as low cardiac output and intestinal bacterial translocation (Muller-Werdan et al. 1998). Evidence for a direct heart damaging role of TNF-α (Feldman et al. 2000) supports the notion that increased TNF-α production may play a significant role in the pathogenesis of advanced heart failure. T. cruzi membrane lipids with bacterial endotoxin-like effects induce the production of significant amounts of TNF-α and the other proinflammatory cytokines: interleukin (IL)-1, IL-6, and IL-12 (Almeida et al. 2000). Chronic Chagas disease patients, asymptomatic/"indeterminate" chronic Chagas disease patients (ASY) or CCC with and without left ventricular dysfunction bear a low-grade, lifelong T. cruzi infection (Britto et al. 1995), and display increased production of IL-12 induced IFN-γ (Ribeirão et al. 2000, Abel et al. 2001) which in turn can upregulate TNF-α production (Tarleton 1988, Abrahamsohn & Coffman 1996). Given the increased parasite-induced stimulus for proinflammatory cytokine production and the expected stimulus derived from heart failure in severe Chagas disease cardiomyopathy patients, the aim of this study was study plasma TNF-α levels across the clinical spectrum of Chagas disease cardiomyopathy. For that matter, we studied plasma TNF-α levels among different clinical forms of chronic Chagas disease, idiopathic dilated cardiomyopathy (DCM) patients and normal controls (NC). MATERIALS AND METHODS Patients and sample preparation - All patients were subjected to anti-T. cruzi serological blood tests employing at least two distinct methodologies, electrocardiography and uni and bidimensional echocardiography. Exclusion criteria included major systemic or associated cardiological disease or organ transplantation. Chagas disease patients (diagnosed with at least two positive anti-T. cruzi serological blood tests employing distinct methodologies) were divided in three groups: asymptomatic "indeterminate" T. cruzi seropositive individuals (ASY) with a normal electrocardiogram (ECG) and bidimensional echocardiography (n = 27), CCC with significant LV dysfunction (left ventricular ejection fraction (LVEF) ≤ 50% measured by echocardiography; n = 27), CCC without significant LV dysfunction (ECG alterations-bundle blocks and hemiblocks, LVEF > 50%; n = 52). DCM patients (n = 16) were subjected coronariography to exclude ischemic heart disease. Patients were followed at the Heart Institute (InCor), University of São Paulo Medical School. Heart failure patients received standard therapy with angiotensin conversion enzyme inhibitors, loop diuretics and beta-blockers; none were receiving amiodarone or milrinone at the time of sample collection. Ethyl-enediaminetetraacetate, sodium salt (EDTA)-anticoagulated peripheral blood was collected from the antecubital vein from all studied subjects, centrifuged at 4oC and the plasma was frozen at -80oC. Samples were also collected from T. cruzi seronegative, normal volunteers as a control group (NC; n = 24). Subjects gave their informed consent and sample collection procedures have been cleared by the Internal Review Board of the Heart Institute and University of São Paulo Medical School. Quantification of plasma TNF-α - TNF-α levels in plasma samples were measured with the high sensitivity Quantikine HS, Human TNF-α kit (R&D systems). Briefly, 200 µl of each sample was added in duplicate wells to the supplied 96-well plate sensitized with anti-TNF-α antibody, and the assay developed according to manu-facturer's directions. Quantitation limit was 0.5 pg/ml. Statistical analysis - The non-parametric Kruskal-Wallis test was used to compare TNF-α levels among clinical groups. Fisher's exact test was used to compare proportions of subjects presenting high TNF-α levels among clinical groups. Spearman's Correlation was used to test for correlation between two variables. RESULTS Baseline characteristics of subjects in each clinical group are shown in the Table. The male/female ratio is dichotomous, with a significant concentration of male subjects among CCC patients with lower LVEF values or DCM, as compared to the female predominance among CCC patients with higher LVEF values or the ASY group. Plasma TNF-αlevels were significantly higher among Chagas disease patients than among NC (P < 0.001; Fig. 1). While 94% of plasma samples from Chagas disease patients had TNF-α values above 1 pg/ml, only 12% of control plasma samples had similar levels, a highly discriminatory situation for Chagas disease (P < 0.0001). We observed that plasma samples with high TNF-α values (above 4 pg/ml) were basically only observed among CCC and DCM patients with LVEF ≤ 50% (33% and 50%, respectively) rather than among CCC with LVEF > 50%, ASY, and NC (8%, 11% and 0, respectively; P < 0.01, DCM or CCC LVEF ≤ 50% vs other groups; Fig. 2). Furthermore, TNF-α levels among CCC patients with LVEF ≤ 50% were similar to those of DCM patients, significantly higher than the ASY or CCC patients with LVEF > 50% (P < 0.05) and 8-fold higher than NC (P < 0.001) (Fig. 2). Plasma TNF-α levels were similar among ASY patients and CCC patients with LVEF > 50%; their average plasma TNF-α levels were 4-fold higher than that of NC (P < 0.001). In spite of the lower average age of the NC group as compared to the other groups, we found no correlation between age and plasma TNF-α levels among NC or Chagas disease/DCM patients (Spearman's correlation), suggesting that the age difference did not contribute to the increased patient TNF-α levels. We found no significant difference in plasma TNF-α between males and females. However, we observed a statistically significant negative correlation between plasma TNF-α and LVEF in CCC patients (P = 0,0268, r = -0,2492; Spearman's correation; data not shown). DISCUSSION We have shown that CCC patients with LVEF ≤ 50% display plasma TNF-α values comparable to those of low LVEF DCM patients. Together with the observation that plasma TNF-α bears an inverse correlation with LVEF among CCC patients, these data suggest that, among low LVEF CCC patients, the predominant mechanism of upregulation of TNF-α production is secondary to advanced heart failure itself, such as low cardiac output and intestinal bacterial translocation (Muller-Werdan et al. 1998). However, the finding that high TNF-αvalues (above 4 pg/ml) already occur in individuals displaying LVEF as high as 50% suggests that 50% LVEF may be a functional threshold for increased TNF-α production independent from advanced heart failure. Furthermore, we observed that even ASY Chagas disease patients display increased levels of plasma TNF-α as compared to control samples, in line with the increased production of other inflammatory cytokines such as IFN-γ in CCC (Abel et al. 2001). Taking into account that all Chagas disease patients bear chronic infection by T. cruzi, the increase in plasma TNF-α values shown by ASY patients or CCC with LVEF > 50% can probably be attributed to T. cruzi-induced monocyte production of the cytokine as described (Almeida et al. 2000). Our results contradict a recent report that did not find detectable levels of TNF-α in serum samples of 91 Chagas disease patients (Ward et al. 1999). This is most likely due to the high detection limit of the TNF-α detection kit used by the authors of the previous study (10 pg/ml) compared to the 0.5 pg/ml quantification level in the present study. Out of the 106 samples from Chagas disease patients in our study, only 4 showed values higher than 10 pg/ml. Furthermore, standard serum collection procedures allow long incubation times, often at 37ºC, for clot formation prior to serum separation and freezing, which can lead to proteolytic loss of low-concentration substances such as circulating cytokines. There is accumulating evidence for a direct heart damaging role of TNF-α including a negative inotropic effect, ventricular remodeling and induction of dilated cardiomyopathy in animals and human subjects (Feldman et al. 2000), as well as the positive results in therapeutic trials with TNF-α synthesis inhibitors and blockers (Sliwa et al. 1998, Bozkurt et al. 2001). It is thus possible that the observed increase in TNF-α production before the onset of congestive heart failure in Chagas disease may play a role in the worse prognosis of Chagas cardiomyopathy (Mady et al. 1994, Bestetti & Muccillo 1997), as compared to other cardiomyopathies, where the increase in plasma TNF-α is usually found only in advanced heart failure (Kubota et al. 2000). Recent results from our group have shown that severe CCC patients carrying TNF-α genetic polymorphisms associated to high TNF-α production display a significantly shorter survival than similar patients bearing other alleles (Drigo S et al. unpublished data), further reinforcing the pathogenetic role of TNF-α in the progression of CCC. Finally, results suggest that therapy with TNF-α synthesis inhibitors and blockers may be at least as beneficial in chronic Chagas disease cardiomyopathy as in other aetiologies of heart failure. Experimental studies on the safety of TNF-α blocking therapy in animal models chronically infected with T. cruzi may authorize clinical trials to evaluate its impact on disease progression and mortality. REFERENCES
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