Cone Cell Survival and Downregulation of GCAP1 Protein in the Retinas of GC1 Knockout Mice

doi:10.1167/iovs.04-0392

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(Investigative Ophthalmology and Visual Science. 2004;45:3397-3403.)
© 2004 by The Association for Research in Vision and Ophthalmology, Inc.
DOI: 10.1167/iovs.04-0392

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Cone Cell Survival and Downregulation of GCAP1 Protein in the Retinas of GC1 Knockout Mice

Jason E. Coleman, Yan Zhang, Gary A. J. Brown, and Susan L. Semple-Rowland

From the Department of Neuroscience, University of Florida McKnight Brain Institute and College of Medicine, Gainesville, Florida.

PURPOSE. To examine the spatial and temporal characteristicsof cone cell survival and the expression of guanylate cyclase–activatingproteins (GCAPs) in the guanylate cyclase (GC)-1 knockout (KO)mouse retina.

METHODS. Immunohistochemical analyses with peanut agglutininand an antibody specific for cone transducin were used to examinecone cell survival in the GC1 KO retina at 4, 5, 9, 16, and24 weeks of age. Immunohistochemical and Northern and Westernblot analyses were used to examine the expression of GCAP1 andGCAP2 in 4- to 5-week-old mice.

RESULTS. The number of cone cells appeared normal throughoutthe superior and inferior retinal regions in 4- and 5-week-oldGC1 KO mice but gradually decreased by 6 months. Cone cell losswas exacerbated in the inferior retinal region, with only 2%to 8% remaining by 6 months of age; however, 40% to 70% of thecone cells survived in the superior region at this age. GCAP1and GCAP2 protein levels were downregulated in GC1 KO retinasat 4 weeks of age and GCAP1 immunostaining was absent from thephotoreceptor outer segments.

CONCLUSIONS. The results of this study show that the rate ofcone cell loss in the GC1 KO mouse is comparable to that previouslydescribed in the GUCY1*B chicken and in humans with Leber congenitalamaurosis (LCA)-1. The GCAP expression data, when combined withthose of previous electrophysiological studies of the GC1 KOmouse retina, provide evidence that GC1-GCAP1 interactions areessential for cone cell function in mice and that GC2 and GCAP2activities contribute to the rod cell response in the absenceof GC1.

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