FGL2 prothrombinase contributes to the early stage of coronary microvascular obstruction through a fibrin-dependent pathway.

BACKGROUND: Membrane-associated fibrinogen-like protein 2 (FGL2 prothrombinase, pFGL2) is abundantly expressed in activated microvascular endothelial cells (MVECs) and plays a crucial role in microthrombus formation in microcirculatory vasculature. It has been widely reported that coronary microvascular obstruction (CMVO) contributes to adverse outcomes following myocardial ischemia/reperfusion. However, the role of pFGL2 in CMVO is poorly understood. METHODS AND RESULTS: We aimed to identify the effect of MVECs-pFGL2 in CMVO using FGL2 knockout mice. As results, the MVECs-pFGL2 expression progresses significantly over 3 days and then gradually decreases, which is positively correlated with the extent of CMVO as detected by HE staining in wild type mice. Furthermore, FGL2 deficiency is correlated with decreased areas of no-reflow and necrosis as detected by Evans Blue and TTC staining and that it ameliorates cardiac dysfunction detected by hemodynamics in the early stage of CMVO. Moreover, fibrin deposition in microvasculature is significantly reduced in FGL2-deficient mice as evidenced by immunohistochemistry, MSB and Carstairs staining, along with the down-regulation of leukocyte adhesion and infiltration. Additionally, we observed that the FGL2 deficiency decreases macrophage infiltration and shifts the macrophage phenotype from pro-inflammatory (M1,) to anti-inflammatory (M2,) pattern in the early stage of CMVO. CONCLUSION: These findings highlight the MVECs-pFGL2-fibrin pathway in the early stage of CMVO and provide insights into coagulation and inflammation for the coronary artery disease therapeutics.

Construction of shRNA of Fulminant Hepatitis Related Gene mfgl2 and Investigation of Its Biological Effects in vitro / 中国病毒学

This study was designed to explore the RNA interference technique in inhibition of the expression of the mouse fibrinogen like protein 2 (mfgl2), which has been reported to be involved in the development a variety of diseases including fulminant viral hepatitis. A plasmid named p-mfgl2shRNA,complementary to the sequence of mfgl2 was constructed, while another short hairpin RNA (shRNA)which was a mutated form of the mfgl2shRNA sequences was used as a control. A plasmid named pEGFP-mfgl2 expressing the mfgl2-EGFP fusion protein was also constructed for the screening of the effect of p-mfgl2shRNA on mfgl2 expression. By cotransfection of p-mfgl2shRNA and pEGFP-mfgl2 or pcDNA3.1-mfgl2 expression construct into CHO cells or HeLa cells, the inhibition of mfgl2 expression by mfgl2shRNA was analyzed by direct observation through fluorescent microscopy, FACS, RT-PCR and immunohistochemistry staining. The experiments showed the significant inhibitory effect of p-mfgl2shRNA on mfgl2 expression at 48h post-transfection in both CHO and Hela cell lines with the inhibitory efficiency as high as 80.1%. The study demonstrated that the construct of p-mfgl2shRNA successfully interfered with the mfgl2 expression in vitro.