Direct Interaction of Otoferlin with Syntaxin 1A, SNAP-25, and the L-type Voltage-gated Calcium Channel CaV1.3

Direct Interaction of Otoferlin with Syntaxin 1A, SNAP-25, and the L-type Voltage-gated Calcium Channel CaV1.3

The molecular mechanisms underlying synaptic exocytosis in the hair cell, the auditory and vestibular receptor cell, are not well understood. Otoferlin, a C2 domain-containing Ca2+-binding protein, has been implicated as having a role in vesicular release. Mutations in the OTOF gene cause nonsyndrom...

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Published in:The Journal of biological chemistry Vol. 284; no. 3; pp. 1364 - 1372
Main Authors: Ramakrishnan, Neeliyath A., Drescher, Marian J., Drescher, Dennis G.
Format: Journal Article
Language:English
Published: United States Elsevier Inc 16-01-2009
American Society for Biochemistry and Molecular Biology
Subjects:
Amino Acid Substitution
Animals
Calcium - metabolism
Calcium Channels, L-Type - genetics
Calcium Channels, L-Type - metabolism
Deafness - genetics
Deafness - metabolism
Exocytosis - physiology
Hair Cells, Auditory - metabolism
Humans
Membrane Proteins - genetics
Membrane Proteins - metabolism
Mice
Mice, Knockout
Mutation, Missense
Protein Binding - physiology
Protein Structure and Folding
Protein Structure, Tertiary - physiology
Synapses - genetics
Synapses - metabolism
Synaptosomal-Associated Protein 25 - genetics
Synaptosomal-Associated Protein 25 - metabolism
Syntaxin 1 - genetics
Syntaxin 1 - metabolism
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Summary:The molecular mechanisms underlying synaptic exocytosis in the hair cell, the auditory and vestibular receptor cell, are not well understood. Otoferlin, a C2 domain-containing Ca2+-binding protein, has been implicated as having a role in vesicular release. Mutations in the OTOF gene cause nonsyndromic deafness in humans, and OTOF knock-out mice are deaf. In the present study, we generated otoferlin fusion proteins containing two of the same amino acid substitutions detected in DFNB9 patients (P1825A in C2F and L1011P in C2D). The native otoferlin C2F domain bound syntaxin 1A and SNAP-25 in a Ca2+-dependent manner (with optimal 61 μm free Ca2+ required for binding). These interactions were greatly diminished for C2F with the P1825A mutation, possibly because of a reduction in tertiary structural change, induced by Ca2+, for the mutated C2F compared with the native C2F. The otoferlin C2D domain also bound syntaxin 1A, but with weaker affinity (Kd = 1.7 × 10–5m) than for the C2F interaction (Kd = 2.6 × 10–9m). In contrast, it was the otoferlin C2D domain that bound the Cav1.3 II-III loop, in a Ca2+-dependent manner. The L1011P mutation in C2D rendered this binding insensitive to Ca2+ and considerably diminished. Overall, we demonstrated that otoferlin interacts with two main target-SNARE proteins of the hair-cell synaptic complex, syntaxin 1A and SNAP-25, as well as the calcium channel, with the otoferlin C2F and C2D domains of central importance for binding. Because mutations in the otoferlin C2 domains that cause deafness in humans impair the ability of otoferlin to bind syntaxin, SNAP-25, and the Cav1.3 calcium channel, it is these interactions that may mediate regulation by otoferlin of hair cell synaptic exocytosis critical to inner ear hair cell function.
Bibliography:To whom correspondence should be addressed: 259 Lande Medical Research Bldg., Wayne State University School of Medicine, 540 East Canfield Ave., Detroit, MI 48201. Tel.: 313-577-1650; E-mail: ddresche@med.wayne.edu.
This work was supported, in whole or in part, by National Institutes of Health Grants DC000156 and DC004076. This work was also supported by a grant from the American Hearing Research Foundation. The costs of publication of this article were defrayed in part by the payment of page charges. This article must therefore be hereby marked “advertisement” in accordance with 18 U.S.C. Section 1734 solely to indicate this fact.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.M803605200