OligoG CF‐5/20 normalizes cystic fibrosis mucus by chelating calcium

A Ermund, CV Recktenwald… - Clinical and …, 2017 - Wiley Online Library
A Ermund, CV Recktenwald, G Skjåk‐Bræk, LN Meiss, E Onsøyen, PD Rye, A Dessen…
Clinical and Experimental Pharmacology and Physiology, 2017Wiley Online Library
The goal of this study was to determine whether the guluronate (G) rich alginate OligoG CF‐
5/20 (OligoG) could detach cystic fibrosis (CF) mucus by calcium chelation, which is also
required for normal mucin unfolding. Since bicarbonate secretion is impaired in CF, leading
to insufficient mucin unfolding and thereby attached mucus, and since bicarbonate has the
ability to bind calcium, we hypothesized that the calcium chelating property of OligoG would
lead to detachment of CF mucus. Indeed, OligoG could compete with the N‐terminus of the …
Summary
The goal of this study was to determine whether the guluronate (G) rich alginate OligoG CF‐5/20 (OligoG) could detach cystic fibrosis (CF) mucus by calcium chelation, which is also required for normal mucin unfolding. Since bicarbonate secretion is impaired in CF, leading to insufficient mucin unfolding and thereby attached mucus, and since bicarbonate has the ability to bind calcium, we hypothesized that the calcium chelating property of OligoG would lead to detachment of CF mucus. Indeed, OligoG could compete with the N‐terminus of the MUC2 mucin for calcium binding as shown by microscale thermophoresis. Further, effects on mucus thickness and attachment induced by OligoG and other alginate fractions of different length and composition were evaluated in explants of CF mouse ileum mounted in horizontal Ussing‐type chambers. OligoG at 1.5% caused effective detachment of CF mucus and the most potent alginate fraction tested, the poly‐G fraction of about 12 residues, had similar potency compared to OligoG whereas mannuronate‐rich (M) polymers had minimal effect. In conclusion, OligoG binds calcium with appropriate affinity without any overt harmful effect on the tissue and can be exploited for treating mucus stagnation.
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