SNAP-25 palmitoylation and plasma membrane targeting require a functional secretory pathway

S Gonzalo, ME Linder - Molecular biology of the cell, 1998 - Am Soc Cell Biol
S Gonzalo, ME Linder
Molecular biology of the cell, 1998Am Soc Cell Biol
Synaptosomal-associated protein of 25 kDa (SNAP-25) is a palmitoylated membrane protein
essential for neurotransmitter release from synaptic terminals. We used neuronal cell lines to
study the biosynthesis and posttranslational processing of SNAP-25 to investigate how
palmitoylation contributes to the subcellular localization of the protein. SNAP-25 was
synthesized as a soluble protein that underwent palmitoylation approximately 20 min after
synthesis. Palmitoylation of the protein coincided with its stable membrane association …
Synaptosomal-associated protein of 25 kDa (SNAP-25) is a palmitoylated membrane protein essential for neurotransmitter release from synaptic terminals. We used neuronal cell lines to study the biosynthesis and posttranslational processing of SNAP-25 to investigate how palmitoylation contributes to the subcellular localization of the protein. SNAP-25 was synthesized as a soluble protein that underwent palmitoylation approximately 20 min after synthesis. Palmitoylation of the protein coincided with its stable membrane association. Treatment of cells with brefeldin A or other disrupters of transport inhibited palmitoylation of newly synthesized SNAP-25 and abolished membrane association. These results demonstrate that the processing of SNAP-25 and its targeting to the plasma membrane depend on an intact transport mechanism along the exocytic pathway. The kinetics of SNAP-25 palmitoylation and membrane association and the sensitivity of these parameters to brefeldin A suggest a novel trafficking pathway for targeting proteins to the plasma membrane. In vitro, SNAP-25 stably associated with membranes was not released from the membrane after chemical deacylation. We propose that palmitoylation of SNAP-25 is required for initial membrane targeting of the protein but that other interactions can maintain membrane association in the absence of fatty acylation.
Am Soc Cell Biol