Pendred syndrome (PS) is the most frequent form of genetically related syndromic hearing loss, and is associated with mutations of pendrin, encoded by the SLC26A4 gene. This protein localizes to the cellular membrane and permits the exchange of anions between the cytosol and extracellular space. In the inner ear, pendrin conditions the endolymph, allowing for the proper function of sensory cells. Understanding the relationship between the genotype and phenotype of pendrin mutations would aid clinicians to better serve PS patients-however, little is known. Here, we summarize the available data concerning SLC26A4 mutations and how they relate to transporter function. The main findings suggest that all the truncation mutations tested annihilate pendrin function, and that the addition or omission of proline, or the addition or omission of charged amino acids in the sequence of SLC26A4 result in a substantial to dramatic reduction in pendrin function.
Functional characterization of wild-type and mutated pendrin (SLC26A4), the anion transporter involved in Pendred syndrome / S. Dossena, S. Rodighiero, V. Vezzoli, C. Nofziger, E. Salvioni, M. Boccazzi, E. Grabmayer, G.S.G. Bottà, G. Meyer, L. Fugazzola, P.L.M. Beck-Peccoz, M. Paulmichl. - In: JOURNAL OF MOLECULAR ENDOCRINOLOGY. - ISSN 0952-5041. - 43:3-4(2009 Sep), pp. 93-103. [10.1677/JME-08-0175]
Functional characterization of wild-type and mutated pendrin (SLC26A4), the anion transporter involved in Pendred syndrome
M. Boccazzi;L. Fugazzola;P.L.M. Beck-PeccozPenultimo
;
2009
Abstract
Pendred syndrome (PS) is the most frequent form of genetically related syndromic hearing loss, and is associated with mutations of pendrin, encoded by the SLC26A4 gene. This protein localizes to the cellular membrane and permits the exchange of anions between the cytosol and extracellular space. In the inner ear, pendrin conditions the endolymph, allowing for the proper function of sensory cells. Understanding the relationship between the genotype and phenotype of pendrin mutations would aid clinicians to better serve PS patients-however, little is known. Here, we summarize the available data concerning SLC26A4 mutations and how they relate to transporter function. The main findings suggest that all the truncation mutations tested annihilate pendrin function, and that the addition or omission of proline, or the addition or omission of charged amino acids in the sequence of SLC26A4 result in a substantial to dramatic reduction in pendrin function.
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