Abstract
Activation of platelet 12-lipoxygenase (12-LO) generates large quantities of 12(S)- HETE, an oxidized metabolite of arachidonic acid. For decades, the function of this lipid was unknown. Recently, we demonstrated that platelets undergo oxidative fragmentation when exposed to nanomolar concentrations of 12(S)-HETE (
JCI 43:973, 2004
). 12-LO activation occurs upon binding of human or rabbit anti-platelet GPIIIa to a specific platelet epitope GPIIIa49-66 (Cell 106:551, 2001
) which is regulated by a specific IgG conformation (JBC 283: 3224, 2008
). Fragmentation requires activation of the NADPH oxidase pathway downstream of the release of 12(S)-HETE since NADPH oxidase deficient (gp91 phox −/−) platelets fail to respond to exogenous 12(S)-HETE, whereas 12-LO−/− platelets are fully reactive. Since several lipid mediator receptors have been identified, including the leukotriene BLT1 and BLT2 receptors, we reasoned that the stereospecific action of the 12(S)-HETE was also likely mediated by a G-protein coupled receptor (GPCR). Recent data published in an abstract has suggested that some tumor cells might respond to 12(S)- HETE through the orphan GPCR, GPR31 (Guo, et al., IMPaCT, 2007). We searched for evidence of this receptor in platelets and in HUVEC. GPR31 mRNA was found in highly purified platelet and HUVEC preparations by RT-PCR. Further, incubation of gel filtered platelets with [3H]12(S)-HETE demonstrated saturation binding that was 30- fold above background. Binding of the radioligand was inhibited by a 100-fold molar excess of non-radioactive 12(S)-HETE, but was not effected by addition of 12(R)-HETE, a stereoisomer of the 12-LO product (n=3). In two experiments the Kd for 12(S)-HETE binding to platelets was ~20 nM with a Bmax of ~16 fmol/106 platelets. Oxidative platelet fragmentation induced by anti-GPIIIa49-66 Ab is a 12(S)-HETE-dependent process. We now show that this can be inhibited by 13(S)-HODE with an IC50 of ~400 nM (n=3). 13- HODE has been suggested to be a competitive inhibitor of 12(S)-HETE (Pidgeon, et al., Cancer Metastasis Rev 26:503, 2007
). CHO cells which do not express an endogenous 12-(S)-HETE receptor were transfected with a GPR31-bearing plasmid. [3H]12(S)-HETE binding to GPR31-CHO cells was dose-dependent and saturable while the radioligand did not bind to mock transfected cells. Radioligand binding to the GPR31-CHO cells was inhibited by both 13(S)-HODE as well as cold 12(S)-HETE with an IC50 of <50 nM. No inhibition was noted with 100-fold molar excess of the inactive stereoisomer, 12(R)- HETE. Employing a peptide phage display library with GPIIIa49-66 as bait, we have recently found 70% homology with a peptide within the C-terminal end of ADAMTS-18 (a Disintegrin Metalloproteinase with Thrombospondin Motifs which is present in endothelial cells). An active 45kD C-terminal fragment is formed from ADAMTS-18 after thrombin cleavage. This fragment binds to platelets and induces oxidative fragmentation via the activation of 12(S)-HETE synthesis (Blood 110:127A, 2007
). Fragmentation was inhibited by an anti-ADAMTS-18 Ab against the C-terminal end of the protein, as well as a C-terminal 18-mer peptide that mimics the platelet binding region of ADAMTS-18 (n=6). We next tested the ability of 12(S)-HETE to stimulate the release of ADAMTS-18 from HUVEC. Employing a highly sensitive immunoassay for ADAMTS-18, we observed a constitutive secretion of ADAMTS-18 that was enhanced ~15-fold with 12(S)-HETE (300 nM), but not by 12(R)-HETE (n=6). ADAMTS-18 secretion was also inhibited from 10- to 15-fold by 13-HODE (300 nM) as well as by an anti-GPR31 Ab (n=3) while 12(R)- HETE had no effect. Using siRNA to knock down GPR31 in HUVEC (n=3) resulted in an 85% inhibition of 12(S)-HETE-induced secretion, indicating that GPR31 is required to transduce the 12(S)-HETE effect in HUVEC. Thus, the orphan GPCR, GPR31, appears to be the long-sought 12(S)-HETE receptor on platelets and endothelial cells. In platelets, it stimulates activation of NADPH oxidase coupled to oxidative platelet fragmentation. In endothelial cells, it stimulates the release of ADAMTS-18 which binds to platelets and activates the production of platelet 12(S)-HETE leading to further oxidative platelet fragmentation. These observations also support a role for endothelial cell ADAMTS-18 regulation of platelet thrombus formation.Disclosures: No relevant conflicts of interest to declare.
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2008, The American Society of Hematology
2008
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