Abstract
Acetylcholinesterase (AChE) exists as AChE(H) and AChE(T) subunits, which differ by their C-terminal H or T peptides, generating glycophosphatidylinositol-anchored dimers and various oligomers, respectively. We introduced mutations in the four-helix bundle interface of glycophosphatidylinositol-anchored dimers, and analyzed their effect on the production and oligomerization of AChE(H), of AChE(T), and of truncated subunits, AChE(C) (without H or T peptide). Dimerization was reduced for all types of subunits, showing that they interact through the same contact zone; the formation of amphiphilic tetramers (Torpedo AChE(T)) and 13.5 S oligomers (rat AChE(T)) was also suppressed. Oligomerization appeared totally blocked by introduction of an N-linked glycan on the surface of helix alpha(7,8). Other point mutations did not affect the synthesis or the catalytic properties of AChE but reduced or blocked the secretion of AChE(T) subunits. Secretion of AChE(T) was partially restored by co-expression with Q(N), a secretable protein containing a proline-rich attachment domain (PRAD); Q(N) organized PRAD-linked tetramers, except for the N-glycosylated mutants. Thus, the simultaneous presence of an abnormal four-helix bundle zone and an exposed T peptide targeted the enzyme toward degradation, indicating a cross-talk between the catalytic and tetramerization domains.
Highlights
Acetylcholinesterase (AChE) exists as AChEH and affected the dimerization of T2 (AChET) subunits, which differ by their C-terminal H or T peptides, generating glycophosphatidylinositol-anchored dimers and various oligomers, respectively
X-ray crystallography studies of Torpedo dimers showed that the contact zone between the two monomers is a “four-helix bundle” (FHB), formed by the ␣7,8 and ␣10 helices from each catalytic domain (Fig. 1); hydrophobic residues occupy a large proportion of this interface (2)
Mutation A370N did not abolish the production of active AChEH or AChET subunits but reduced it to about 1% of the wild type; mutations A370S and A370Q produced 100 and 50%, respectively, of the wild type level for AChEH and 15 and 5% for AChET
Summary
Acetylcholinesterase (AChE) exists as AChEH and AChET subunits, which differ by their C-terminal H or T peptides, generating glycophosphatidylinositol-anchored dimers and various oligomers, respectively. X-ray crystallography studies of Torpedo dimers showed that the contact zone between the two monomers is a “four-helix bundle” (FHB), formed by the ␣7,8 and ␣10 helices from each catalytic domain (Fig. 1); hydrophobic residues occupy a large proportion of this interface (2). Isolated T peptides can associate with a short “proline-rich attachment domain” (PRAD) of the N-terminal region of ColQ (8, 9); the C-terminal T peptide behaves as an autonomous interaction domain and has been named the WAT domain (10) This suggests that the catalytic domain of AChE does not play a major part in the assembly of an AChET tetramer around the PRAD.
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