PMID: 2499584Jun 25, 1989Paper

Identification of phospholipid-dependent calcium-binding proteins as constituents of matrix vesicles

The Journal of Biological Chemistry
B R GengeR E Wuthier

Abstract

Uptake of mineral ions by isolated matrix vesicles (MV) incubated in synthetic cartilage lymph follows a consistent pattern. After an initial lag period, MV rapidly accumulate large amounts of Ca2+ and Pi before the appearance of crystalline mineral. The ability of MV to accumulate Ca2+ is readily destroyed by proteases, indicating that proteins are important in Ca2+ accumulation. Since MV contain significant amounts of phosphatidylserine (PS), an acidic phospholipid with affinity for Ca2+, it seemed probable that this lipid might also contribute to Ca2+ binding. The development of methods for reproducible isolation of pure active MV enabled us to search for factors responsible for the rapid accumulation of Ca2+. Reported here are studies which reveal that a set of intensely staining MV proteins, extractable with EGTA, selectively bind to Ca2+, but only in the presence of acidic phospholipids. These 30-36-kDa proteins form readily sedimentable insoluble ternary complexes of protein, Ca2+, and lipid in the presence of low levels of Ca2+. With liposomes composed of PS, alone or in combination with phosphatidylethanolamine, submicromolar levels of Ca2+ or certain other divalent cations, but not Mg2+, are sufficient to form the com...Continue Reading

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