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Publication Abstract from PubMed

Cartilage acidic protein-1 (CRTAC1) is a secreted glycoprotein with roles in development, function and repair of the nervous system. It is linked to ischemic stroke, osteoarthritis and (long) COVID outcomes, and has suppressive activity in carcinoma and bladder cancer. Structural characterization of CRTAC1 has been complicated by its tendency to form disulfide-linked aggregates. Here, we show that CRTAC1 is stabilized by potassium ions. Using x-ray crystallography, we determined the structure of CRTAC1 to 1.6 A. This reveals that the protein consists of a three-domain fold, including a previously-unreported compact beta-propeller-TTR combination, in which an extended loop of the TTR plugs the beta-propeller core. Electron density is observed for ten bound ions: six calcium, three potassium and one sodium. Low potassium ion concentrations lead to changes in tryptophan environment and exposure of two buried free cysteines located on a beta-blade and in the beta-propeller-plugging TTR loop. Mutating the two free cysteines to serines prevents covalent intermolecular interactions, but not aggregation, in absence of potassium ions. The potassium ion binding sites are located between the blades of the beta-propeller, explaining their importance for the stability of the CRTAC1 fold. Despite varying in sequence, the three potassium ion binding sites are structurally similar and conserved features of the CRTAC protein family. These insights into the stability and structure of CRTAC1 provide a basis for further work into the function of CRTAC1 in health and disease.

CRTAC1 has a Compact beta-propeller-TTR Core Stabilized by Potassium Ions.,Beugelink JW, Hof H, Janssen BJC J Mol Biol. 2024 Jul 17;436(18):168712. doi: 10.1016/j.jmb.2024.168712. PMID:39029889^[1]

From MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.