Glutamic acid 71 and aspartic acid 66 control the binding of the second calcium ion in porcine pancreatic phospholipase A2.

In addition to the Ca2+ ion at the active site, porcine pancreatic phospholipase A2 (PLA) is known to bind a second calcium ion with a lower affinity at alkaline pH. The second calcium-binding site has been held responsible for effective interaction of phospholipase with organized lipid/water interfaces [van Dam-Mieras, M. C. E., Slotboom, A. J., Pieterson, W. A. and de Haas, G. H. (1975) Biochemistry 14, 5387-5394]. To study the identity of the acidic amino acid residues involved in liganding the second calcium ion in detail, we used site-directed mutagenesis to specifically alter the cDNA encoding porcine pancreatic phospholipase. Three mutant phospholipase species were constructed, each of which lacked one of the potentially important carboxylates: Asp66----Asn, Glu71----Asn and Glu92----Gln. The Gln92 mutant PLA displayed the same properties as native phospholipase indicating that Glu92 is not important for binding the second metal ion. However, Glu71 and, to a lesser extent, Asp66 are both directly involved in the low-affinity calcium binding.