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Role of GAP-43 in Sequestering Phosphatidylinositol 4,5-Bisphosphate to Raft Bilayers

Jihong Tong ^*, Lam Nguyen ^*, Adriana Vidal ^*, Sidney A. Simon  , J. H. Pate Skene  and Thomas J. McIntosh ^*

^* Department of Cell Biology, Department of Neurobiology, and Center of Neuroengineering, Duke University Medical Center, Durham, North Carolina

Correspondence: Address reprint requests to Thomas J. McIntosh, E-mail: t.mcintosh{at}cellbio.duke.edu.

The lipid phosphatidylinositol 4,5-bisphosphate (PIP₂) is critical for a number of physiological functions, and its presence in membrane microdomains (rafts) appears to be important for several of these spatially localized events. However, lipids like PIP₂ that contain polyunsaturated hydrocarbon chains are usually excluded from rafts, which are enriched in phospholipids (such as sphingomyelin) containing saturated or monounsaturated chains. Here we tested a mechanism by which multivalent PIP₂ molecules could be transferred into rafts through electrostatic interactions with polybasic cytoplasmic proteins, such as GAP-43, which bind to rafts via their acylated N-termini. We analyzed the interactions between lipid membranes containing raft microdomains and a peptide (GAP-43P) containing the linked N-terminus and the basic effector domain of GAP-43. In the absence or presence of nonacylated GAP-43P, PIP₂ was found primarily in detergent-soluble membranes thought to correspond to nonraft microdomains. However, when GAP-43P was acylated by palmitoyl coenzyme A, both the peptide and PIP₂ were greatly enriched in detergent-resistant membranes that correspond to rafts; acylation of GAP-43P changed the free energy of transfer of PIP₂ from detergent-soluble membranes to detergent-resistant membranes by –1.3 kcal/mol. Confocal microscopy of intact giant unilamellar vesicles verified that in the absence of GAP-43P PIP₂ was in nonraft microdomains, whereas acylated GAP-43P laterally sequestered PIP₂ into rafts. These data indicate that sequestration of PIP₂ to raft microdomains could involve interactions with acylated basic proteins such as GAP-43.