A simple procedure for purifying mammalian duodenal Ca2+-binding proteins on a 100 mg scale and an investigation of the stoichiometry of their high-affinity binding of Ca2+ ions

Abstract

Vitamin D-dependent Ca2+-binding proteins were isolated on a 100 mg scale from the duodenal mucosae of pig, sheep and rabbit. Ion-exchange chromatography in 2 stages, which used a known property of the proteins, a charge difference with or without bound Ca2+ ions, was sufficient to obtain the pure proteins from several liters of heated mucosal extracts. In the preparation, treatment with cation-exchange resin rather than with EDTA was used to obtain Ca2+-free conditions when they were required. The proteins were characterized by their amino acid compositions. All 3 proteins contained 2 tightly bound Ca2+ ions per molecule, a property now considered to be common to the mammalian Ca2+-binding proteins of this type. The labile nature of the pig Ca2+ protein was demonstrated by the formation of a form which bound only 1 Ca2+ ion. Titration of the Ca2+-free binding proteins with 45Ca2+ in a flow-dialysis cell, and of Ca2=-free .alpha.-lactalbumin used as a control, demonstrated the binding stoichiometry and indicated that Ca2+ ions were bound to the mucosal proteins in dilute buffer at pH 7.5 with a Kd of the order of 10 nM.