Chitlaru_2001_Biochem.J_354_613

Reference

Title : Effect of human acetylcholinesterase subunit assembly on its circulatory residence - Chitlaru_2001_Biochem.J_354_613
Author(s) : Chitlaru T , Kronman C , Velan B , Shafferman A
Ref : Biochemical Journal , 354 :613 , 2001
Abstract :

Sialylated recombinant human acetylcholinesterase (rHuAChE), produced by stably transfected cells, is composed of a mixed population of monomers, dimers and tetramers and manifests a time-dependent circulatory enrichment of the higher-order oligomeric forms. To investigate this phenomenon further, homogeneous preparations of rHuAChE differing in their oligomerization statuses were generated: (1) monomers, represented by the oligomerization-impaired C580A-rHuAChE mutant, (2) wild-type (WT) dimers and (3) tetramers of WT-rHuAChE generated in vitro by complexation with a synthetic ColQ-derived proline-rich attachment domain ('PRAD') peptide. Three different series of each of these three oligoform preparations were produced: (1) partly sialylated, derived from HEK-293 cells; (2) fully sialylated, derived from engineered HEK-293 cells expressing high levels of sialyltransferase; and (3) desialylated, after treatment with sialidase to remove sialic acid termini quantitatively. The oligosaccharides associated with each of the various preparations were extensively analysed by matrix-assisted laser desorption ionization-time-of-flight MS. With the enzyme preparations comprising the fully sialylated series, a clear linear relationship between oligomerization and circulatory mean residence time (MRT) was observed. Thus monomers, dimers and tetramers exhibited MRTs of 110, 195 and 740 min respectively. As the level of sialylation decreased, this differential behaviour became less pronounced; eventually, after desialylation all oligoforms had the same MRT (5 min). These observations suggest that multiple removal systems contribute to the elimination of AChE from the circulation. Here we also demonstrate that by the combined modulation of sialylation and tetramerization it is possible to generate a rHuAChE displaying a circulatory residence exceeding that of all other known forms of native or recombinant human AChE.

PubMedSearch : Chitlaru_2001_Biochem.J_354_613
PubMedID: 11237866

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Citations formats

Chitlaru T, Kronman C, Velan B, Shafferman A (2001)
Effect of human acetylcholinesterase subunit assembly on its circulatory residence
Biochemical Journal 354 :613

Chitlaru T, Kronman C, Velan B, Shafferman A (2001)
Biochemical Journal 354 :613