Increased N-glycosylation efficiency by generation of an aromatic sequon on N135 of antithrombin

Increased N-glycosylation efficiency by generation of an aromatic sequon on N135 of antithrombin

The inefficient glycosylation of consensus sequence on N135 in antithrombin explains the two glycoforms of this key anticoagulant serpin found in plasma: α and β, with four and three N-glycans, respectively. The lack of this N-glycan increases the heparin affinity of the β-glycoform. Recent studies...

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Bibliographic Details
Published in:PloS one Vol. 9; no. 12; p. e114454
Main Authors: Aguila, Sonia, Martínez-Martínez, Irene, Dichiara, Gilda, Gutiérrez-Gallego, Ricardo, Navarro-Fernández, José, Vicente, Vicente, Corral, Javier
Format: Journal Article
Language:English
Published: United States Public Library of Science 08-12-2014
Public Library of Science (PLoS)
Subjects:
Amino acids
Analysis
Anticoagulants
Antithrombin
Antithrombin III - chemistry
Antithrombin III - genetics
Antithrombin III - metabolism
Biology and Life Sciences
Conserved sequence
Denaturation
Efficiency
Glycan
Glycosylation
Heparin
Heparin - metabolism
Humans
Medicine and Health Sciences
Models, Molecular
Mucopolysaccharides
Mutagenesis, Site-Directed
Mutants
Mutation - genetics
N-glycans
Polysaccharides
Protein denaturation
Protein Folding
Protein Structure, Tertiary
Proteins
Recombinant Proteins - chemistry
Recombinant Proteins - genetics
Recombinant Proteins - metabolism
Secretion
Stability analysis
Thermal denaturation
Thermodynamics
Spain
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Summary:The inefficient glycosylation of consensus sequence on N135 in antithrombin explains the two glycoforms of this key anticoagulant serpin found in plasma: α and β, with four and three N-glycans, respectively. The lack of this N-glycan increases the heparin affinity of the β-glycoform. Recent studies have demonstrated that an aromatic sequon (Phe-Y-Asn-X-Thr) in reverse β-turns enhances N-glycosylation efficiency and stability of different proteins. We evaluated the effect of the aromatic sequon in this defective glycosylation site of antithrombin, despite of being located in a loop between the helix D and the strand 2A. We analyzed the biochemical and functional features of variants generated in a recombinant cell system (HEK-EBNA). Cells transfected with wild-type plasmid (K133-Y-N135-X-S137) generated 50% of α and β-antithrombin. The S137T, as previously reported, K133F, and the double mutant (K133F/S137T) had improved glycosylation efficiency, leading to the secretion of α-antithrombin, as shown by electrophoretic and mass analysis. The presence of the aromatic sequon did not significantly affect the stability of this conformationally sensitive serpin, as revealed by thermal denaturation assay. Moreover, the aromatic sequon hindered the activation induced by heparin, in which is involved the helix D. Accordingly, K133F and particularly K133F/S137T mutants had a reduced anticoagulant activity. Our data support that aromatic sequons in a different structural context from reverse turns might also improve the efficiency of N-glycosylation.
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Conceived and designed the experiments: IMM JC. Performed the experiments: SA IMM RGG JNF. Analyzed the data: SA GD. Contributed reagents/materials/analysis tools: SA IMM JC RGG GD. Wrote the paper: SA IMM JC VV.
Competing Interests: Ricardo Gutiérrez Gallego declares that he has no significant competing financial, professional or personal interests that might have influenced the performance or presentation of the work described in this manuscript. He is employed by Anapharm Biotech since September 2013, after the science described in the manuscript was conducted and discussed. Thus, from Anapharm Europe there has been involvement whatsoever. Furthermore, the nature of the activities at Anapharm Biotech, a contract research organization, dedicated to bioanalysis of clinical trial specimens for the pharmaceutical industry, does not produce of conflict of interest with the science presented in the paper.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0114454