INTRODUCTION: The long pentraxin 3 is involved in innate resistance to pathogens, controlling inflammation and extracellular matrix remodeling. Moreover, pentraxin 3 plays a nonredundant role in the regulation of cardiac tissue damage in mice and, recently, it has been proposed as a new candidate marker for acute and chronic heart diseases. However, the actual localization and cellular sources of pentraxin 3 in ischemic and infectious cardiac pathology have not been carefully defined. METHODS: In this study, using immunohistochemistry, we analyzed pentraxin 3 expression in the heart tissues of patients with acute myocardial infarction at different time points after the ischemic event. In addition, we studied the heart tissues of patients with infectious myocarditis (fungi, bacteria, and protozoa) and patients who died of noncardiac events with normal heart histology. RESULTS: In acute myocardial infarction cases, we observed pentraxin 3 localized within and around ischemic lesions. On the contrary, no pentraxin 3 was observed in normal heart areas. In early ischemic lesions, pentraxin 3 was localized primarily in granulocytes; in more advanced acute myocardial infarction, pentraxin 3 positivity was found in the interstitium and in the cytoplasm of macrophages and the endothelium, whereas most granulocytes did not express pentraxin 3, presumably as a consequence of degranulation. In infectious myocarditis, pentraxin 3 was present and localized within and around histological lesions, associated with macrophage, endothelial cell, and, more rarely, myocardiocyte and granulocyte positivities. As observed in acute myocardial infarction patients, no pentraxin 3 staining was found in normal heart areas. CONCLUSIONS: Thus, neutrophils are an early source of pentraxin 3 in acute myocardial infarction and presumably other inflammatory heart disorders. Subsequently, in acute myocardial infarction and infectious myocarditis, pentraxin 3 is produced by macrophages, the endothelium, and, to a lesser extent, myocardiocytes, and localized in the interstitium.
INTRODUCTION: The long pentraxin 3 is involved in innate resistance to pathogens, controlling inflammation and extracellular matrix remodeling. Moreover, pentraxin 3 plays a nonredundant role in the regulation of cardiac tissue damage in mice and, recently, it has been proposed as a new candidate marker for acute and chronic heart diseases. However, the actual localization and cellular sources of pentraxin 3 in ischemic and infectious cardiac pathology have not been carefully defined. METHODS: In this study, using immunohistochemistry, we analyzed pentraxin 3 expression in the heart tissues of patients with acute myocardial infarction at different time points after the ischemic event. In addition, we studied the heart tissues of patients with infectious myocarditis (fungi, bacteria, and protozoa) and patients who died of noncardiac events with normal heart histology. RESULTS: In acute myocardial infarction cases, we observed pentraxin 3 localized within and around ischemic lesions. On the contrary, no pentraxin 3 was observed in normal heart areas. In early ischemic lesions, pentraxin 3 was localized primarily in granulocytes; in more advanced acute myocardial infarction, pentraxin 3 positivity was found in the interstitium and in the cytoplasm of macrophages and the endothelium, whereas most granulocytes did not express pentraxin 3, presumably as a consequence of degranulation. In infectious myocarditis, pentraxin 3 was present and localized within and around histological lesions, associated with macrophage, endothelial cell, and, more rarely, myocardiocyte and granulocyte positivities. As observed in acute myocardial infarctionpatients, no pentraxin 3 staining was found in normal heart areas. CONCLUSIONS: Thus, neutrophils are an early source of pentraxin 3 in acute myocardial infarction and presumably other inflammatory heart disorders. Subsequently, in acute myocardial infarction and infectious myocarditis, pentraxin 3 is produced by macrophages, the endothelium, and, to a lesser extent, myocardiocytes, and localized in the interstitium.
Authors: Peter J Leary; Nancy S Jenny; R Graham Barr; David A Bluemke; Michael O Harhay; Susan R Heckbert; Richard A Kronmal; João A Lima; Carmen Mikacenic; Russell P Tracy; Steven M Kawut Journal: Pulm Circ Date: 2014-06 Impact factor: 3.017
Authors: James N Warnock; Bindu Nanduri; Carol A Pregonero Gamez; Juliet Tang; Daniel Koback; William M Muir; Shane C Burgess Journal: Int J Inflam Date: 2011-08-18
Authors: Tinna Christersdottir Björklund; Sarah-Jayne Reilly; Caroline Gahm; Barbara Bottazzi; Alberto Mantovani; Per Tornvall; Martin Halle Journal: J Transl Med Date: 2013-09-23 Impact factor: 5.531