The receptor for advanced glycation end products (RAGE) plays a key role in mammal physiology and in the etiology and progression of inflammatory and oxidative stress-based diseases. In adults, RAGE expression is high only in the lung where the protein concentrates in the basal membrane of Type I alveolar epithelial cells. In diseases, RAGE levels increase in the affected tissues and sustain chronic inflammation. RAGE exists as a single trans-membrane protein with an ectodomain and a short carboxyl-terminal tail essential for signaling, or also as a soluble ectodomain (sRAGE) that acts as a decoy receptor. The ectodomain is composed of a variable and two constant IgG-like domains (V, C1 and C2). VC1 is a single integrated unit responsible for binding of RAGE to the majority of its ligands including the advanced glycation End products (AGEs), S100 proteins and HMGB-1. Here, we report the identification of 20 new RAGE binding partners captured from human plasma and involved in the coagulation and complement processes and in the extracellular matrix. Four proteins contained a -carboxyl glutamic acid (Gla)-domain. Using MicroScale Thermophoresis, we quantified the interaction of prothrombin (PT) with VC1 and with sRAGE. Calcium competed in the binding of PT to sRAGE and PT devoid of the Gla-domain did not bind to sRAGE, providing evidence that the Gla-domain is critical for the interaction. Finally, the presence of VC1 delayed plasma clotting in a dose-dependent manner. We propose that RAGE is involved in modulating blood coagulation presumably in conditions of lung injury.