April 2009
Volume 50, Issue 13
Free
ARVO Annual Meeting Abstract  |   April 2009
Remodeling of Cone Photoreceptor Cells After Rod Degeneration in Rd Mice
Author Affiliations & Notes
  • B. Lin
    Massachusetts General Hospital, Boston, Massachusetts
    Harvard Medical School, Boston, Massachusetts
  • R. H. Masland
    Massachusetts General Hospital, Boston, Massachusetts
    Harvard Medical School, Boston, Massachusetts
  • E. Strettoi
    Istituto di Neuroscienze CNR, Pisa, Italy
  • Footnotes
    Commercial Relationships  B. Lin, None; R.H. Masland, None; E. Strettoi, None.
  • Footnotes
    Support  NIH Grants EY 017169 and RO1 EY12654.
Investigative Ophthalmology & Visual Science April 2009, Vol.50, 4155. doi:
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    • Get Citation

      B. Lin, R. H. Masland, E. Strettoi; Remodeling of Cone Photoreceptor Cells After Rod Degeneration in Rd Mice. Invest. Ophthalmol. Vis. Sci. 2009;50(13):4155.

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Abstract

Purpose: : We studied the survival of cone photoreceptors following the degeneration of rods in the rd mouse.

Methods: : Cones were visualized by selective expression of green fluorescent protein (GFP) following transduction with an adeno-associated virus (AAV) vector.

Results: : As previously reported, many cones survive after the initial degeneration of the rods. Soon after the initial degeneration, they lose their outer segments and all but a vestigial inner segment; and they partially retract or lose their axon and synaptic pedicle. However, they retain many fundamental features of the cone phenotype, and for many weeks show a polarized morphology indicative of substantial regrowth of processes. The cells retain their laminar position, forming a cell row just distal to a much thinned outer plexiform layer. The somata subsequently enlarge. Most of the cells extend bipolar processes, recreating the original bipolar morphology of a photoreceptor cell -- though now turned on its side relative to the native position. The cells express short- or middle- wavelength opsins, recoverin and connexin 36. One or more of the polarized processes could often be shown to contain synaptic ribbons, as visualized by antibodies against RIBEYE. The cones did not express protein kinase C alpha, Go alpha, ChX10 or calbindin, markers of bipolar or horizontal cells. Cone photoreceptors in retinas of human RP donors appear from their morphology to undergo a similar progression.

Conclusions: : The partially differentiated cone morphology persists for at least several months, after which the processes begin to retract and there is slow loss of the cells. Thus, during the time following the loss of their rod-dominated microenvironment, the cones achieve a semi-stable state in which much of their normal phenotype is preserved. The therapeutic window for rescue of cone photoreceptors may be longer than would have been thought.

Keywords: retinal degenerations: cell biology • photoreceptors • anatomy 
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