International Journal of Cell Biology (Jan 2011)

Band 3 Missense Mutations and Stomatocytosis: Insight into the Molecular Mechanism Responsible for Monovalent Cation Leak

  • Damien Barneaud-Rocca,
  • Bernard Pellissier,
  • Franck Borgese,
  • Hélène Guizouarn

DOI
https://doi.org/10.1155/2011/136802
Journal volume & issue
Vol. 2011

Abstract

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Missense mutations in the erythroid band 3 protein (Anion Exchanger 1) have been associated with hereditary stomatocytosis. Features of cation leaky red cells combined with functional expression of the mutated protein led to the conclusion that the AE1 point mutations were responsible for Na+ and K+ leak through a conductive mechanism. A molecular mechanism explaining mutated AE1-linked stomatocytosis involves changes in AE1 transport properties that become leaky to Na+ and K+. However, another explanation suggests that point-mutated AE1 could regulate a cation leak through other transporters. This short paper intends to discuss these two alternatives.