Abstract
The genes for AChE and BChE encode the proteins responsible for enzyme activity. Additional gene products, PRiMA and PRaD, anchor AChE and BChE proteins into membranes. Soluble AChE and BChE tetramers are composed of 4 identical subunits plus one polyproline-rich peptide. Dilution does not release the polyproline-rich peptide from tetramers. However, protein denaturation, for example heating in a boiling water bath, dissociates the polyproline-rich peptide. Using mass spectrometry to sequence peptides released from soluble AChE and BChE tetramers, we find sequences that correspond to proline-rich regions from a variety of proteins. A typical peptide sequence contains 20 consecutive prolines in a 23-residue peptide LPPPPPPPPPPPPPPPPPPPPLP. There is no single, common consensus sequence i.e., no specific gene appears to be responsible for the polyproline-rich peptides found in soluble AChE and BChE tetramers. We propose that during metabolic turnover, protein fragments containing polyproline-rich sequences are scavenged by AChE and BChE dimers, to make stable AChE and BChE tetramers. The 40-residue, alpha-helical C-terminus of AChE or BChE is the tetramerization domain that binds the polyproline-rich peptide. Four parallel alpha helices wrap around a single antiparallel polyproline peptide to lock the tetramer in place. This organization was established by classical X-ray crystallography for isolated C-termini in complex with a proline-rich peptide. The organization was confirmed for intact, tetrameric BChE using cryoelectron microscopy. When 40 amino acids are deleted from the carboxy terminus, monomeric enzymes are created that retain full enzymatic activity.
Highlights
Butyrylcholinesterase (P06276) in human plasma is stable in the circulation with a half-life of 11 days [1]
The soluble BChE and AChE tetramers assemble around any polyproline-rich peptide, regardless of its origin or length as long as the peptide has at least 12 residues
We have identified polyproline-rich peptides in BChE tetramers isolated from human plasma, equine plasma, porcine milk, and from recombinant human BChE expressed in Chinese Hamster
Summary
Butyrylcholinesterase (P06276) in human plasma is stable in the circulation with a half-life of 11 days [1]. Its stability is attributed to several factors including a) its large size of 340 kDa, b) the fact that it is sugar coated with 36 N-linked glycans per tetramer [2,3], c) it is resistant to proteolysis, and d) it is a tetramer. The focus of this review is the tetramer organization of butyrylcholinesterase (BChE). Soluble BChE and acetylcholinesterase (AChE) are assembled into tetramers through interaction of 4 tetramerization domains with one polyproline-rich peptide [4,5]. This motif for tetramerization is unique for the cholinesterases as of the year 2020, but future studies may find it in other protein tetramers
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