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Retrograde intraciliary trafficking of opsin during the maintenance of cone‐shaped photoreceptor outer segments of Xenopus laevis
Author(s) -
Tian Guilian,
Lodowski Kerrie H.,
Lee Richard,
Imanishi Yoshikazu
Publication year - 2014
Publication title -
journal of comparative neurology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.855
H-Index - 209
eISSN - 1096-9861
pISSN - 0021-9967
DOI - 10.1002/cne.23630
Subject(s) - xenopus , opsin , biology , peripherin , membrane , microbiology and biotechnology , retina , biophysics , growth cone , anatomy , rhodopsin , retinal , neuroscience , biochemistry , axon , gene
ABSTRACT Photoreceptor outer segments (OSs) are essential for our visual perception, and take either rod or cone forms. The cell biological basis for the formation of rods is well established; however, the mechanism of cone formation is ill characterized. While Xenopus rods are called rods, they exhibit cone‐shaped OSs during the early process of development. To visualize the dynamic reorganization of disk membranes, opsin and peripherin/rds were fused to a fluorescent protein, Dendra2, and expressed in early developing rod photoreceptors, in which OSs are still cone‐shaped. Dendra2 is a fluorescent protein which can be converted from green to red irreversibly, and thus allows spatiotemporal labeling of proteins. Using a photoconversion technique, we found that disk membranes are assembled at the base of cone‐shaped OSs. After incorporation into disks, however, Opsin‐Dendra2 was also trafficked from old to new disk membranes, consistent with the hypothesis that retrograde trafficking of membrane components contributes to the larger disk membrane observed toward the base of the cone‐shaped OS. Such retrograde trafficking is cargo‐specific and was not observed for peripherin/rds‐Dendra2. The trafficking is unlikely mediated by diffusion, since the disk membranes have a closed configuration, as evidenced by CNGA1 labeling of the plasma membrane. Consistent with retrograde trafficking, the axoneme, which potentially mediates retrograde intraflagellar trafficking, runs through the entire axis of OSs. This study provides an insight into the role of membrane reorganization in developing photoreceptor OSs, and proves that retrograde trafficking of membrane cargoes can occur there. J. Comp. Neurol. 522:3577–3589, 2014. © 2014 Wiley Periodicals, Inc.

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