Abstract
Syntaxin plays a key role in intracellular membrane fusion in eukaryotic cells. The function of syntaxin relies on its proper trafficking to and targeting at the target membrane. The mechanisms underlying the trafficking and targeting of syntaxin to its physiological sites remain poorly understood. Here we have analyzed the trafficking of syntaxin 1A in INS-1 and CHO cells. We have identified the transmembrane domain together with several flanking positive-charged amino acids as the minimal domain required for the membrane delivery. Interestingly, we found that SNARE motif-exposed syntaxin 1A mutants were retained in endoplasmic reticulum (ER) and failed to transport to the cell surface in the absence of SNAP-25, suggesting that the exposure of the SNARE motif causes ER retention and complexation with SNAP-25 helps the ER escape. Finally, our data propose two key roles for the H(abc) domain: to protect nonspecific interaction by masking the SNARE motif and to participate in the clustering of syntaxin 1A to the fusion sites in the plasma membrane.
Highlights
SNARE4 proteins play a central role in the process of intracellular membrane fusion in eukaryotic cells
By calculating the surface fraction of Syntaxin 1A (Stx1A)-pHluorin in pH 5.5 and NH4Cl solutions according to Equations 1 and 2, respectively, we estimated a mean internal pH of 6.6 (Fig. 2c), suggesting that intracellular Stx1A-pHluorin resides in acidic compartments
Tail-anchored membrane proteins constitute a class of integral membrane proteins that are held in the phospholipid bilayer by a single transmembrane domain (TMD) close to the C terminus, while the entire functional N-terminal portion faces the cytosol
Summary
SNARE4 (soluble N-ethylmaleimide-sensitive factor attachment protein receptor) proteins play a central role in the process of intracellular membrane fusion in eukaryotic cells (for recent reviews, see Refs. 1–3). We have quantitatively studied the trafficking of wild type Stx1A and its truncation mutants in both INS-1 and CHO cells employing a pH-sensitive fluorescent protein label, pHluorin.
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