Increased perivascular fibrosis and pro-fibrotic cellular transition in intramyocardial blood vessels in patients with myocardial infarction

Type of funding sources: Public grant(s) – National budget only. Main funding source(s): China Scholarship Council

Myocardial infarction (MI) is pathologically characterized by irreversible myocardial necrosis caused by ischemia. Intramyocardial vascular dysfunction is believed to increase the risk of MI. In this study, we investigated intramyocardial blood vessels in deceased patients during the early and chronic phases of MI to explore the involvement of perivascular fibrosis and pro-fibrotic cellular transitions in the pathological process of MI.

Left ventricular tissue (LV) was obtained from the infarction area of autopsied patients with early-phase MI (3-6 hours old; n=23), chronic-phase MI (5-14 days old; n=12), and from non-infarcted controls (n=14). We quantified perivascular fibrosis using EVG staining and fibroblast activation protein (FAP) expression using immunohistochemistry. Co-localization of smooth muscle actin (SMA) or CD31 with fibroblast marker S100A4 indicative of transition of smooth muscle cells (SMC) and endothelial cells (EC) toward fibroblast-like cells in intramyocardial vessels was quantified using immunofluorescent microscopy.

Compared to controls (61.03%), perivascular fibrosis was significantly elevated in MI patients (early-phase 77.20%; chronic-phase 82.58%)(p<0.0001), with the highest level observed in the infarct cores of chronic-phase patients (95.18%). Compared to controls, FAP expression was 3.5-fold higher in early-phase- and 15.3-fold higher in chronic-phase MI patients (p<0.05), wherein FAP expression again was highest in the infarct cores. Furthermore, in both early- and chronic-phase MI, SMC- and EC fibroblast-like cellular transition was increased. The fraction of SMA+S100A4+ vessels was significantly higher in early-phase MI (31.96%) and chronic-phase MI (21.9%: border zone; 37.25%: infarct core) compared to controls (8.95%)(p<0.05). Similarly, the fraction of CD31+S100A4+ area was significantly increased in early-phase MI (10.14%) and chronic-phase MI (8.31%: border zone 10.15%: infarct core) compared to controls (2.67%)(p<0.05).

We observed increased perivascular fibrosis, fibroblast activation and fibroblast-like cellular transition toward a pro-fibrotic phenotype of vascular cells in intramyocardial blood vessels in MI patients, that may contribute to the development of MI. The further increase of FAP expression and perivascular fibrosis, particularly in the infarct core, in the chronic-phase suggest that MI itself can exacerbate fibroblast activation and perivascular fibrosis, theoretically increasing the risk of reinfarction.

FAP expression and perivascular fibrosis