Abstract
Branchio-oto-renal syndrome (BOR) is an autosomal dominant developmental disorder characterized by hearing loss, branchial arch defects, and renal anomalies. Recently, eight mutations in the SIX1 homeobox gene were discovered in BOR patients. To characterize the effect of SIX1 BOR mutations on the EYA-SIX1-DNA complex, we expressed and purified six of the eight mutants in Escherichia coli. We demonstrate that only the most N-terminal mutation in SIX1 (V17E) completely abolishes SIX1-EYA complex formation, whereas all of the other mutants are able to form a stable complex with EYA. We further show that only the V17E mutant fails to localize EYA to the nucleus and cannot be stabilized by EYA in the cell. The remaining five SIX1 mutants are instead all deficient in DNA binding. In contrast, V17E alone has a DNA binding affinity similar to that of wild type SIX1 in complex with the EYA co-factor. Finally, we show that all SIX1 BOR mutants are defective in transcriptional activation using luciferase reporter assays. Taken together, our experiments demonstrate that the SIX1 BOR mutations contribute to the pathology of the disease through at least two different mechanisms that involve: 1) abolishing the formation of the SIX1-EYA complex or 2) diminishing the ability of SIX1 to bind DNA. Furthermore, our data demonstrate for the first time that EYA: 1) requires the N-terminal region of the SIX1 Six domain for its interaction, 2) increases the level of the SIX1 protein within the cell, and 3) increases the DNA binding affinity of SIX1.
Highlights
Syndrome is highly variable between and even within families [1], 70 –93% of Branchio-oto-renal syndrome (BOR) patients exhibit hearing loss [1]
To better understand the molecular mechanism of BOR syndrome caused by SIX1 mutations, we attempted to analyze all eight of the SIX1 BOR mutations that have been identified to date
Wild type human SIX1 and the eight SIX1 mutants were subcloned into a GST fusion vector in an effort to express these proteins in E. coli for biochemical analyses
Summary
Syndrome is highly variable between and even within families [1], 70 –93% of BOR patients exhibit hearing loss [1]. We report the effects of six of the eight SIX1 BOR mutations on a variety of biological functions including: protein expression, protein stability, protein-protein interaction, DNA binding, and transcriptional activation.
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