Mosquito-Derived Anophelin Sulfoproteins Are Potent Antithrombotics
Access status:
Open Access
Type
ArticleAuthor/s
Watson, Emma ELiu, Xuyu
Thompson, Robert E
Ripoll-Rozada, Jorge
Wu, Mike
Alwis, Imala
Gori, Alessandro
Loh, Choy-Theng
Parker, Benjamin L
Otting, Gottfried
Jackson, Shaun
Pereira, Pedro José Barbosa
Payne, Richard J.
Abstract
The anophelins are small protein thrombin inhibitors that are produced in the salivary glands of the Anopheles mosquito to fulfill a vital role in blood feeding. A bioinformatic analysis of anophelin sequences revealed the presence of conserved tyrosine residues in an acidic ...
See moreThe anophelins are small protein thrombin inhibitors that are produced in the salivary glands of the Anopheles mosquito to fulfill a vital role in blood feeding. A bioinformatic analysis of anophelin sequences revealed the presence of conserved tyrosine residues in an acidic environment that were predicted to be post-translationally sulfated in vivo. To test this prediction, insect cell expression of two anophelin proteins, from Anopheles albimanus and Anopheles gambiae, was performed, followed by analysis by mass spectrometry, which showed heterogeneous sulfation at the predicted sites. Homogeneously sulfated variants of the two proteins were subsequently generated by chemical synthesis via a one-pot ligation–desulfurization strategy. Tyrosine sulfation of the anophelins was shown to significantly enhance the thrombin inhibitory activity, with a doubly sulfated variant of the anophelin from A. albimanus exhibiting a 100-fold increase in potency compared with the unmodified homologue. Sulfated anophelins were also shown to exhibit potent in vivo anticoagulant and antithrombotic activity.
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See moreThe anophelins are small protein thrombin inhibitors that are produced in the salivary glands of the Anopheles mosquito to fulfill a vital role in blood feeding. A bioinformatic analysis of anophelin sequences revealed the presence of conserved tyrosine residues in an acidic environment that were predicted to be post-translationally sulfated in vivo. To test this prediction, insect cell expression of two anophelin proteins, from Anopheles albimanus and Anopheles gambiae, was performed, followed by analysis by mass spectrometry, which showed heterogeneous sulfation at the predicted sites. Homogeneously sulfated variants of the two proteins were subsequently generated by chemical synthesis via a one-pot ligation–desulfurization strategy. Tyrosine sulfation of the anophelins was shown to significantly enhance the thrombin inhibitory activity, with a doubly sulfated variant of the anophelin from A. albimanus exhibiting a 100-fold increase in potency compared with the unmodified homologue. Sulfated anophelins were also shown to exhibit potent in vivo anticoagulant and antithrombotic activity.
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Date
2018-04-11Publisher
American Chemical SocietyCitation
Emma E. Watson, Xuyu Liu, Robert E. Thompson, Jorge Ripoll-Rozada, Mike Wu, Imala Alwis, Alessandro Gori, Choy-Theng Loh, Benjamin L. Parker, Gottfried Otting, Shaun Jackson, Pedro José Barbosa Pereira, and Richard J. Payne ACS Central Science 2018 4 (4), 468-476 DOI: 10.1021/acscentsci.7b00612Share