Thrombin activates platelets through protease activated receptors (PARs). Mouse platelets express PAR3 and PAR4. PAR3 does not signal in platelets. However, PAR4 is a relatively poor thrombin substrate and requires PAR3 as a cofactor at low thrombin concentrations. In this study we show that PAR3 also regulates PAR4 signaling. In response to thrombin (30-100 nM) or PAR4 activating peptide (AYPGKF), platelets from PAR3(-/-) mice had increased G(q) signaling compared to wild type mice as demonstrated by a 1.6-fold increase in the maximum intracellular calcium (Ca(2+)) mobilization, an increase in phosphorylation level of protein kinase C (PKC) substrates, and a 2-fold increase of Ca(2+) release from intracellular stores. Moreover, platelets from heterozygous mice (PAR3(+/-)) had an intermediate increase in maximum Ca(2+) mobilization. Treatment of PAR3(-/-) mice platelets with P2Y(12) antagonist (2MeSAMP) did not affect Ca(2+) mobilization from PAR4 in response to thrombin or AYPGKF. The activation of RhoA-GTP downstream G(12/13) signaling in response to thrombin was not significantly different between wild type and PAR3(-/-) mice. Since PAR3 influenced PAR4 signaling independent of agonist, we examined the direct interaction between PAR3 and PAR4 with bioluminescence resonance energy transfer (BRET). PAR3 and PAR4 form constitutive homodimers and heterodimers. In summary, our results demonstrate that in addition to enhancing PAR4 activation at low thrombin concentrations, PAR3 negatively regulates PAR4-mediated maximum Ca(2+) mobilization and PKC activation in mouse platelets by physical interaction.