The serpin proteinase inhibitor 8: an endogenous furin inhibitor released from human platelets.

The cornerstone of hemostasis is the ability of the organism to limit the enzymatic processes involved, thereby avoiding thrombosis. For this, anticoagulant systems in place involve serpins, such as PAI-1 and antithrombin III, which bind to their targeted serine proteases and limit their period of activity. We have previously identified the serine protease furin as a platelet-derived enzyme with an intrinsic role in platelet functions. We now report that furin enzymatic activity decreased rapidly following platelet activation, corresponding with the increase in formation of a high 180 M(r) SDS-stable complex composed of furin and the PI8 serpin. PI8 is shown to be a platelet-derived constituent, synthesized by megakaryocytes and stored in platelets prior to its release. Immunoprecipitation and purification of the PI8-furin complex confirmed their direct interaction and indicates that one of the roles of PI8 is to inhibit furin enzymatic activity. Furthermore, our findings demonstrate the inhibitory capacity of exogenous PI8 in platelet aggregation assays. The finding that PI8 is released by platelets and controls functional responses suggests a role for this serpin in platelet-regulated pathophysiological responses.

Alternative pathway for the role of furin in tumor cell invasion process. Enhanced MMP-2 levels through bioactive TGFbeta.

The mammalian convertase furin plays a significant role in tumorigenesis and its overexpression was observed in a number of different cancer types. To date, however, few mechanisms of action have been described. Most of the information available concerns the invasion step and designates MT1-MMP, through the activation of MMP-2, as the bona fide substrate mediating furin activity. However, recent reports indicate furin-independent pathways for MT1-MMP activation. To gain further insights into the role of furin in the invasion process, we studied the in vitro invasive capacity of LoVo cells, a furin-deficient adenocarcinoma cell line transfected with wild-type furin. Furin complementation resulted in an increased cell invasiveness that correlated with their capacity to produce MMP-2. Chemical blockage of MMPs activity with BB-3103 or MMP-2-specific antibodies revealed that the increased invasive capacity of furin-complemented cells was mediated by MMP-2. Unexpectedly, furin complementation did not change the status of MT1-MMP expression or activation, but instead resulted in the production of mature and bioactive TGFbeta1. Western blot-analysis of TGFbeta1 fragmentation species indicated that TGFbeta maturation step required furin activity, whereas results from TGFbeta-inducible reporter assays in the presence of MMP inhibitors or exogenous MMP-2 suggested that the activation step was under MMP influence. In addition, blockage with TGFbeta neutralizing antibodies revealed that furin-induced invasiveness was mediated by endogenous production of TGFbeta. Taken together, our findings established the existence of a novel alternative/complementary pathway by which furin increases tumor cell invasion through an amplification/activation loop between MMP-2 and TGFbeta.

Furin gene (fur) regulation in differentiating human megakaryoblastic Dami cells: involvement of the proximal GATA recognition motif in the P1 promoter and impact on the maturation of furin substrates.

The convertase furin is involved in the maturation of key growth/aggregation mediators synthesized by the platelet producers, megakaryocytes, but the regulation of furin in these cells remains unknown. Computer-assisted search of the furin promoter sequence revealed multiple potential binding motifs for GATA-1, suggesting that furin is expressed and regulated in these cells. Using megakaryoblastic Dami cells, we observed that fur mRNA expression increased gradually on phorbol 12-myristate 13-acetate-induced differentiation, reaching maximum levels (8.3-fold increase) at 10 days. Transient transfections with P1, P1A, or P1B fur-LUC-promoter constructs revealed that in Dami cells, the P1 promoter is the strongest and the most sensitive to forced expression of GATA-1. Coexpression of GATA-1 and its comodulator, Friend of GATA-1 (FOG-1), resulted in a cooperative increase in P1 activity. Deletion analysis indicated that important GATA-1-regulated sequences are located in the most proximal region of the P1 promoter. Further analysis revealed 2 potential GATA-binding motifs at positions -66 and +62. Point mutation of each of the 2 motifs indicated that the intactness of the first GATA site is required for full basal and GATA-1-stimulated promoter activity. Finally, the inhibition of furin activity through gene transfer of the inhibitor alpha1-AT-PDX led to a block in maturation of the furin substrates transforming growth factor-beta1 and platelet-derived growth factor. Taken together, these results indicate that the most proximal GATA element in the P1 promoter is needed for fur gene expression in megakaryoblastic cells. They also suggest that proper regulation of the fur gene in megakaryocytes has an impact on the activation of furin substrates involved in megakaryocyte maturation and platelet functions.