A receptor for advanced glycation end products (RAGE) has emerged as a crucial player in various pathological conditions due to its involvement in inflammation and cellular dysfunction. Its soluble isoform, sRAGE, has garnered significant attention for its competitive inhibitory effects and potential therapeutic applications. However, obtaining sRAGE with appropriate glycosylation patterns for binding to glycated proteins has been challenging, often requiring costly expression systems. Here, we present a novel approach for producing and purifying sRAGE from Sus scrofa lungs, bypassing the need for expensive expression systems. Previous protocols for sRAGE extraction faced reproducibility issues due to high viscosity and haemoglobin content of the solution. To address this, we developed a method for selective haemoglobin precipitation using a zinc-containing buffer, enabling purification via various chromatographic methods. Through a combination of chromatographic techniques, we obtained sRAGE in suitable purity, identified using HPLC-MS/MS. Additionally, producing glycated proteins for RAGE receptor activation often involved lengthy protocols or inadequate separation from reactants. Thus, we devised a rapid method for producing and purifying pure BSA glycated with ribose, addressing a critical gap in the field. Functional studies, conducted using Native PAGE, demonstrated the capability of purified proteins to bind to each other.
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