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ISSN: 2155-9880
Journal of Clinical & Experimental Cardiology
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Identification of Factors Causing Sudden Coagulation in Patients with Acute Myocardial Infarction

Arnaldo Pinelli1*, S. Trivulzio1, S. Brenna2, V. Rosato3, L. Rivoltini4 and G. Rossoni1
1Department of Medical Biotechnology and Translational Medicine, University of Milan, Italy
2Laboratory of Clinical Chemistry, Ospedale Niguarda Ca’ Granda, Milan, Italy
3Department of Clinical Science and Community, Milan, Italy
4IRCCS Foundation National Institute of Cancer, Milan, Italy
Corresponding Author : Professor Arnaldo Pinelli
Department of Medical Biotechnology and Translational Medicine
Via Vanvitelli 32, 20129 - Milan, Italy
Tel: +39 02 50317086
Fax: +39 02 50316949
E-mail: [email protected]
Received April 03, 2012; Accepted June 22, 2012; Published June 25, 2012
Citation: Pinelli A, Trivulzio S, Brenna S, Rosato V, Rivoltini L, et al. (2012) Identification of Factors Causing Sudden Coagulation in Patients with Acute Myocardial Infarction. J Clin Exp Cardiolog 3:202. doi:10.4172/2155-9880.1000202
Copyright: © 2013 Jung YG. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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Abstract

Background: Coronary artery disease (CAD) evolving to acute myocardial infarction (AMI) is due to the thrombotic occlusion of coronary vessels in the presence of destabilized atheroma, rich in inflammatory cells secreting proteolytic enzymes that induce the development of thrombosis. The aim of this study was to analyse the plasma of AMI patients for the detection of proteases or factors that may cause fast coagulation. Methods: The patients were analysed for the presence in plasma of cardiac troponin T (c-TnT) or proteases as neutrophil gelatinase-associated lipocalin (NGAL) using ELISA method and matrix metalloproteinase-9 (MMP-9) utilising flow cytometry technique and interleukin-8 (IL-8) using flow cytometry methodology. Results: The presence of AMI was demonstrated by high levels of c-TnT; in comparison with controls the AMI patients displayed a significant increase in the values of MMP-9 and low levels of antithrombin III: these markers were negatively correlated: MMP-9 appeared to cause the coagulation activity documented by the consumption of antithrombin III. The same patients also showed high levels of NGAL, which is known to modulate MMP-9 activity and to be involved in coagulation process: patients also exhibited an increased amount of IL-8 which appears to be associated with high levels of NGAL: this cytokine seems to affect the values of NGAL which is linked to coagulation process. Conclusion: The high levels of MMP-9, NGAL and IL-8 in AMI patients seemed to be interrelated and connected with the process leading to rapid coagulation. These markers may be measured in absence of AMI, particularly in CAD patients, as their detection may reveal a risk of sudden coronary coagulation.

Keywords
Acute Myocardial Infarction (AMI); Coronary Artery Diseases (CAD); Unstable atherosclerotic plaque; Matrix Metalloproteinase-9 (MMP-9); Neutrophil Gelatinase-Associated Lipocalin (NGAL); Interleukin-8 (IL-8)
Introduction
Coronary artery disease (CAD) evolving to acute myocardial infarction (AMI) is associated with the thrombotic occlusion of coronary vessels in the presence of atheromatous plaque [1]. The atheroma is rich in inflammatory cells secreting proteolytic enzymes that may erode the fibrous cap and facilitate its rupture (unstable plaque) [2], and induce the development of coagulation and thrombosis [3].
It can be hypothesised that these secreted proteases such as matrix metalloproteinase-9 (MMP-9) [2], gelatinases such as neutrophil gelatinase-associated lipocalin (NGAL) [4], and cytokines such as IL-8 [5] may be involved in the sudden coagulation process: their proteolytic activity may activate the development of thrombosis observed in acute myocardial infarction.
The aim of this study was to analyse the plasma of healthy subjects and AMI patients for the detection of proteases that may cause fast coagulation, in particular MMP-9, NGAL and the interleukin IL-8.
Patients and Methods
Eight randomly selected male AMI patients aged 50-65 years and eight healthy male subjects of the same age were selected in order to verify whether these markers are interrelated in priming the coagulation and thrombosis that leads to AMI. This preliminary study was approved by the Ethical Committee of Niguarda Ca’ Granda Hospital Milan – Italy.
The presence of AMI was demonstrated by measuring the specific marker c-TnT [6] and the plasma levels were evaluated using a commercial kit provided by Roche (Milan, Italy) [6].
MMP-9 and IL-8 were assayed using a BenderMed System flow cytomix simplex kits given by Prodotti Gianni (Milan, Italy), which were selected as representative examples of technologies currently used for high-throughput immunoanalysis [7]. NGAL was analysed using an enzyme-linked immunosorbent assay (ELISA) [8] supplied by Bioporto Diagnostic (Verona, Italy) in accordance with the manufacturer’s instructions. Plasma antithrombin III was measured using colorimetric method, based on a chromogenic substrate: S-2765:N-Z-D-ARG-GLYARG- pNA using a kit provided by Instrumentation Laboratory (Milan, Italy) [9].
Statistical analysis
The values of the various biochemical markers, in the plasma of normal subjects and AMI patients, were compared using Kruskal- Wallis test and the significance of differences (P) was calculated [10,11].
The correlations between MMP-9 and antithrombin III or IL-8 and NGAL were calculated using Spearman’s correlation coefficient [10,11].
Results
Table 1 shows the plasma values of c-TnT (ng/ml) observed in healthy subjects (<0.01) and AMI patients (3.20) with highly significant difference: P<0.001. c-TnT is a specific marker of AMI and clearly demonstrates the presence of AMI.
Table 1 reports the plasma values of MMP-9, antithrombin III, NGAL and IL-8 expressed as median and their significance calculated with Kruskal-Wallis test.
 
In particular the plasma levels of MMP-9 (ng/ml) observed in healthy subjects (29.25) and in AMI patients (32.35) exhibited significantly different values: P<0.034. The MMP-9 detected in plasma may affect biochemical process.
The levels of antithrombin III (mg/dl) found in healthy subjects (109.50) and AMI patients (96.00) appear to be significantly different: P<0.004.
The values of NGAL (ng/ml) detected in healthy subjects (67.00) and AMI patients (157.00) differ very significantly: P<0.004. The high increase of NGAL in AMI patients suggests a role of this marker in myocardial damage.
The values of IL-8 (pg/ml) observed in healthy subjects (13.82) and AMI patients (27.30) were significantly different: P<0.027. The increase of IL-8 suggests a role of this inflammatory marker in myocardial infarction.
The Spearman correlation between MMP-9 and antithrombin III appears to be significant (r=-0.523; P=0.05).
Discussion
The occurrence of AMI was demonstrated by high levels of the specific c-TnT marker [6] (Table 1). Remarkably, in the AMI patients, affected by acute coronary coagulation, were found, altered plasma values of MMP-9, antithrombin III, NGAL and IL-8. It appears to be quite important to analyse the links between these altered factors and the priming of coagulation. The AMI patients had higher MMP-9 levels than the controls. In addition, they had lower amount of antithrombin III, which is consumed by coagulation [12] and the lowering of antithrombin III during AMI or unstable angina was reported also by other authors [12,13]. Significant negative correlation between MMP- 9 and antithrombin III (r=-0.523; P=0.05; Spearman correlation) suggests that the former affected the levels of the latter and promoted coagulation. The process of coagulation is activated by MMP-9, which cleaves and inactivates tissue factor inhibitor and does not cleave tissue factor and factor VIIa [14]: thus MMP-9 allows the tissue factor to interact with factor VIIa: i.e. the clot starts with MMP-9 priming activity [15]. In addition it is known that the over-expression of MMP- 9 causes intravascular thrombus formation in porcine coronary artery [16].
Other authors also described high MMP-9 levels in cardiovascular diseases. MMP-9 was detected in 20% of the patients reported in the Framingham Heart Study [17]. The presence of this circulating biomarker reflects plaque inflammation, and its plasma concentration indicates the risk of future cardiovascular mortality in patients with CAD [18]. However, none of these studies [17,18] demonstrated that MMP-9 is directly involved in the coagulation process.
The AMI patients had higher NGAL levels (Table 1). NGAL interacts with MMP-9, preserves it from degradation, and modulates its proteolytic activity [19], affecting coagulation [14,15]. It has been reported that NGAL levels are high in patients with CAD [20] and are related to the severity of the disease [8], and are increased in clinical and experimental heart failure [21]. However, although these findings suggest that NGAL may play an active pathophysiological role in the development of coronary events, none of them [8,20,21] demonstrate a direct relationship between NGAL and the priming of coagulation process.
Finally, the AMI patients had high plasma IL-8 levels (Table 1); the same patients show high values of NGAL. It is important to remember that IL-8 exhibits the capacity to recruit the neutrophils [22] that releases NGAL [23], sorted to azurophil granules [24]. In addition, as IL-8 stimulates from human neutrophils [22] the release of NGAL [23] and MMP-9 [25,26] affecting coagulation [14,15], the IL-8 increase, observed, suggest that this factor may facilitate the coagulation process. High values of IL-8 or other chemokines can be used to predict cardiovascular risk [27], and indicate a probable future CAD in normal subjects [28,29]. However, none of these studies [27-29] demonstrate a connection between IL-8 and coagulation.
As IL-8 stimulates from human neutrophils [22] the release of NGAL [23] and MMP-9 [25,26] affecting coagulation [14,15], the observed IL-8 increase suggests that this factor may be involved in facilitating the coagulation process.
Conclusions
In brief, we detected increased plasma MMP-9 in our AMI patients, who also had high levels of NGAL and IL-8. These markers appear to be interrelated and involved in the process leading to rapid coagulation: a clot starts with MMP-9 priming activity [14], which is modulated by NGAL [19] and affected by IL-8 [25,26]. Although it is also possible that the inflammatory cells found in the morphological changes that occur 12-24 hours after an AMI [1] may contribute to the release of factors affecting coagulation, the origin of the indicators here detected may be also attributed to inflammatory cells infiltrating atherosclerotic plaque [1-3,14].
We suggest that the markers MMP-9, NGAL and IL-8 found in AMI subjects and associated with sudden coagulation may be used in a large-scale study of CAD patients to reveal a risk of acute coronary syndrome.
Acknowledgements
This study is dedicated to the memory of Professor Cirillo Mussini (17.02.1936 – 17.03.2007), the Founder and first President of the Concorde Group (Spezzano, Modena, Italy).
The authors are grateful to Doctor Luca Mussini, Managing Director to Concorde Group S.p.A. (Spezzano, Modena, Italy) for encouraging and funding this study.
Conflict of Interest
None of the authors have any conflict of interest in relation to this manuscript.
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