Nucleotide bound to rab11a controls localization in rod cells but not interaction with rhodopsin

Nucleotide bound to rab11a controls localization in rod cells but not interaction with rhodopsin

Precise vectorial transport of rhodopsin is essential for rod photoreceptor health and function. Mutations that truncate or extend the C terminus of rhodopsin disrupt this transport, and lead to retinal degeneration and blindness in human patients and in mouse models. Here we show that such mutation...

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Bibliographic Details
Published in:The Journal of neuroscience Vol. 34; no. 45; pp. 14854 - 14863
Main Authors: Reish, Nicholas J, Boitet, Evan R, Bales, Katie L, Gross, Alecia K
Format: Journal Article
Language:English
Published: United States Society for Neuroscience 05-11-2014
Subjects:
Animals
Binding Sites
Guanosine Triphosphate - metabolism
Mice
Mutation
Protein Binding
Protein Transport
rab GTP-Binding Proteins - chemistry
rab GTP-Binding Proteins - genetics
rab GTP-Binding Proteins - metabolism
Rhodopsin - metabolism
Rod Cell Outer Segment - metabolism
Xenopus
Xenopus laevis
protein interactions
rhodopsin
rab11a
protein trafficking
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Summary:Precise vectorial transport of rhodopsin is essential for rod photoreceptor health and function. Mutations that truncate or extend the C terminus of rhodopsin disrupt this transport, and lead to retinal degeneration and blindness in human patients and in mouse models. Here we show that such mutations disrupt the binding of rhodopsin to the small GTPase rab11a. The rhodopsin-rab11a interaction is a direct binding interaction that does not depend on the nucleotide binding state of rab11a. Expression of EGFP-rab11a fusion proteins in Xenopus laevis photoreceptors revealed that the nucleotide binding status of rab11a affects its subcellular localization, with GTP-locked mutants concentrated in the inner segment and GDP-locked mutants concentrated in the outer segment. shRNA-mediated knockdown of rab11a in rods led to shortened outer segments and retinal degeneration. Together, our results show the critical importance of direct rhodopsin-rab11a interactions for the formation and maintenance of vertebrate photoreceptors.
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Author contributions: N.J.R. and A.K.G. designed research; N.J.R., E.R.B., K.L.B., and A.K.G. performed research; A.K.G. contributed unpublished reagents/analytic tools; N.J.R., E.R.B., K.L.B., and A.K.G. analyzed data; N.J.R., E.R.B., K.L.B., and A.K.G. wrote the paper.
ISSN:0270-6474
1529-2401
DOI:10.1523/JNEUROSCI.1943-14.2014