Potassium-induced partial inhibition of lactoperoxidase: structure of the complex of lactoperoxidase with potassium ion at 2.20 Å resolution.

Lactoperoxidase, a heme-containing glycoprotein, catalyzes the oxidation of thiocyanate by hydrogen peroxide into hypothiocyanite which acts as an antibacterial agent. The prosthetic heme moiety is attached to the protein through two ester linkages via Glu258 and Asp108. In lactoperoxidase, the substrate-binding site is formed on the distal heme side. To study the effect of physiologically important potassium ion on the structure and function of lactoperoxidase, the fresh protein samples were isolated from yak (Bos grunniens) colostrum and purified to homogeneity. The biochemical studies with potassium fluoride showed a significant reduction in the catalytic activity. Lactoperoxidase was crystallized using 200 mM ammonium nitrate and 20% PEG-3350 at pH 6.0. The crystals of LPO were soaked in the solution of potassium fluoride and used for the X-ray intensity data collection. Structure determination at 2.20 Å resolution revealed the presence of a potassium ion in the distal heme cavity. Structure determination further revealed that the propionic chain attached to pyrrole ring C of the heme moiety, was disordered into two components each having an occupancy of 0.5. One component occupied a position similar to the normally observed position of propionic chain while the second component was found in the distal heme cavity. The potassium ion in the distal heme cavity formed five coordinate bonds with two oxygen atoms of propionic moiety, Nε2 atom of His109 and two oxygen atoms of water molecules. The presence of potassium ion in the distal heme cavity hampered the catalytic activity of lactoperoxidase.

Structure of Yak Lactoperoxidase at 1.55 Å Resolution.

Lactoperoxidase (LPO) is a heme containing oxido-reductase enzyme. It is secreted from mammary, salivary, lachrymal and mucosal glands. It catalyses the conversion of thiocyanate into hypothiocyanate and halides into hypohalides. LPO belongs to the superfamily of mammalian heme peroxidases which also includes myeloperoxidase (MPO), eosinophil peroxidase (EPO) and thyroid peroxidase (TPO). The heme prosthetic group is covalently linked in LPO through two ester bonds involving conserved residues Glu258 and Asp108. It was isolated from colostrum of yak (Bos grunniens), purified to homogeneity and crystallized using ammonium iodide as a precipitating agent. The crystals belonged to monoclinic space group P21 with cell dimensions of a = 53.91 Å, b = 78.98 Å, c = 67.82 Å and ß = 92.96°. The structure was determined at 1.55 Å resolution. This is the first structure of LPO from yak. Also, this is the highest resolution structure of LPO determined so far from any source. The structure determination revealed that three segments (Ser1-Cys15), (Thr117-Asn138) and (Cys167-Leu175) were disordered and formed one surface of LPO structure. In the substrate binding site, the iodide ions were observed in three subsites which are formed by (1) heme moiety and residues, Gln105, Asp108, His109, Phe113, Arg255, Glu258, Phe380 and Phe381, (2) residues, Asn230, Lys232, Pro236, Cys248, Phe254, Phe381 and Pro424 and (3) residues, Ser198, Leu199 and Arg202. The structure determination also revealed that the side chain of Phe254 was disordered. It was observed to adopt two conformations in the structures of LPO.