A coordinated effort combining bioinformatic tools with high-throughput cell-based screening assays was implemented to identify novel factors involved in T-cell biology. We generated a unique library of cDNAs encoding predicted secreted and transmembrane domain-containing proteins generated by analyzing the Human Genome Sciences cDNA database with a combination of two algorithms that predict signal peptides. Supernatants from mammalian cells transiently transfected with this library were incubated with primary T cells and T-cell lines in several high-throughput assays. Here we describe the discovery of a T cell factor, TIP (T cell immunomodulatory protein), which does not show any homology to proteins with known function. Treatment of primary human and murine T cells with TIP in vitro resulted in the secretion of IFN-gamma, TNF-alpha, and IL-10, whereas in vivo TIP had a protective effect in a mouse acute graft-versus-host disease (GVHD) model. Therefore, combining functional genomics with high-throughput cell-based screening is a valuable and efficient approach to identifying immunomodulatory activities for novel proteins.
Background-Inhibition of GPVI has been proposed as a useful antithrombotic strategy; however, in vivo proof-ofconcept animal studies targeting GPVI are lacking. We evaluated a novel anti-human GPVI monoclonal antibody OM4 Fab in rats. Methods and Results-OM4 Fab specifically inhibited collagen-induced aggregation of rat platelets in vitro with an IC 50 of 20 to 30 g/mL but not ADP and AA-induced platelet aggregation. After intravenous administration of OM4 Fab, a rapid inhibition of ex vivo platelet aggregation was observed with a gradual recovery within 60 to 90 minutes which corresponded to the decline in OM4 Fab plasma concentration and time-dependent decrease in platelet-bound OM4 Fab. In contrast to previous reports in mice, intravenous OM4 Fab did not deplete platelet GPVI. Injection of OM4 IgG caused acute thrombocytopenia. In a modified Folts model of cyclic flow reduction in rat carotid artery, the number of complete occlusions was significantly reduced by intravenous administration of OM4 Fab (20 mg/kg) before or after mechanical injury to the vessel, without prolongation of bleeding time. Conclusion-Fab fragment of the monoclonal antibody OM4 effectively inhibits collagen induced platelet aggregation in vitro and ex vivo, and in vivo thrombosis in rats without prolonging bleeding time. Antibodies against GPVI may have therapeutic potential, inhibiting thrombosis without prolonging bleeding time. (Arterioscler Thromb Vasc Biol.
Fibrillar collagen, exposed by damage of vascular endothelium, is the most thrombogenic component of the subendothelium, which, in addition to supporting platelet adhesion, is also a potent platelet activator. Platelet glycoprotein VI (GPVI) plays a major role in collagen-induced platelet activation, leading to thrombus formation. Inhibition of GPVI function may be a novel anti-platelet therapy with minimal bleeding risk. Recent evidence in FcRγ-chain-knockout (KO) mice, which also lack GPVI, shows attenuated myocardial infarction after ischemia and reperfusion. Unlike GPVI, which is exclusively expressed in platelets and megakaryocytes, FcRγ-chain also exists in white blood cells and immune cells. Thus, it is unclear whether GPVI deletion is cardioprotective. In this study, we compared myocardial infarction in GPVI-KO and age-matched wild-type (WT) mice. In parallel FcRγ-chain-KO mice were compared with age-matched WT mice. A major branch of left coronary artery was ligated for 30 min followed by reperfusion for 24 hrs. Myocardial infarction was measured by tetrozolium staining. Hemodynamics were not statistically different among the groups. Risk zone sizes were also similar between WT and GPVI-KO mice (0.020 ± 0.004 cm 3 and 0.022 ± 0.005 cm 3 , respectively) (Mean ± SD). However, percentage infarction of the risk zone was significantly smaller in GPVI-KO mice (averaged 22 ± 8 % vs. 45 ± 18 % in WT). Comparable protection was observed in FcRγ-chain-KO mice (12 ± 6 % vs. 46 ± 13 % in WT). Significant exposure of vascular collagen in the ischemia/reperfusion region of myocardium was revealed by FITC-labeled recombinant GPVI protein, injected prior to ischemia, indicating endothelium injury. Furthermore, there was significantly less expression of P-selectin, a marker of activated platelets, in the myocardium from GPVI-KO and FcRγ-KO mice when compared with WT mice. It is concluded that deletion of GPVI reduces myocardial infarction induced by ischemia and reperfusion, likely due to the attenuation of the platelet-collagen interaction. With its known anti-thrombotic effect and minimal risk of bleeding in animals, anti-GPVI therapy may offer a promising novel treatment for cardiovascular diseases.
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