A membrane microdomain enriched in cholesterol and sphingolipids or so called "raft" region was found to contain many signal transducing proteins such as GPI-anchored proteins, trimeric G proteins and protein tyrosine kinases. Because brain-derived raft contains two calmodulin-binding proteins, GAP-43 and NAP-22 as the major protein components, the raft domain is assumed to be important in the Ca(2+)-signaling. In this study, we analyzed protein components showing Ca(2+)-dependent binding to the raft of synaptic plasma membrane from rat brain. SDS-PAGE analysis of the protein components in the EGTA eluate from the raft prepared in the presence of Ca(2+)-ions showed the elution of 80 kDa, 68 kDa, 22 kDa, and 21 kDa proteins. These proteins were identified as protein kinase C alpha (80 kDa) and annexin VI (68 kDa) from the partial amino-acid sequencing, and neurocalcin alpha (22 kDa) and calmodulin (21 kDa) with western blotting and electrophoretic mobilities in the presence or absence of Ca(2+) ions. Further immunoblotting experiments showed the Ca(2+)-dependent association of conventional, but not non-conventional, subtypes of PKC to the raft.
Copyright 2001 Wiley-Liss, Inc.