Disease expression in X-linked retinitis pigmentosa caused by a putative null mutation in the RPGR gene

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Disease expression in X-linked retinitis pigmentosa caused by a putative null mutation in the RPGR gene

SG Jacobson, M Buraczynska, AH Milam, C Chen, M Jarvalainen, R Fujita, W Wu, Y Huang, AV Cideciyan and A Swaroop
Department of Ophthalmology, Scheie Eye Institute, University of Pennsylvania, Philadelphia 19104, USA.

PURPOSE: To determine the disease expression in X-linked retinitis pigmentosa (XLRP) caused by a putative null mutation in the RPGR (retinitis pigmentosa GTPase regulator) gene. METHODS: In a family with XLRP, haplotype analysis was performed with polymorphic microsatellite markers from the Xp chromosomal region, and genomic polymerase chain reaction sequencing was used to identify sequence variations in the RPGR gene. Hemizygotes and heterozygotes were evaluated clinically and with visual function tests. Optical coherence tomography (OCT) was performed on heterozygotes. Postmortem donor retinas from a heterozygote were examined by microscopy and immunocytochemistry. RESULTS: X-linked inheritance was confirmed by haplotype analysis using Xp markers. Sequence analysis of the RPGR gene identified a single base pair change, a G-->T transversion, that converts codon 52 GGA (Gly) to TGA (stop codon); the mutation segregates with the disease. A hemizygote in the third decade of life had barely measurable rod function and severely impaired cone function that diminished further over a 7-year interval. Heterozygotes varied in degree of disease expression from mild to severe. Perimetry showed loci with normal rod and cone sensitivity interspersed with loci having either equal rod and cone dysfunction or rod > cone dysfunction. Electroretinographic photoreceptor responses had equal reductions in rod and cone maximal amplitude. OCT cross sectional reflectance images of retinal regions with severe dysfunction showed reduced thickness of the retina and retinal pigment epithelium-choriocapillaris (RPE-CC) complex and increased reflections posteriorly. Regions with mild dysfunction showed similar OCT findings but with preserved retinal thickness. Retinal histopathology in a heterozygote revealed loss of photoreceptors throughout, with retention of only a few islands of cones with tiny or absent outer segments and rods lacking outer segments. CONCLUSIONS: This RPGR gene mutation, in its mildest expression in heterozygotes, causes a relatively equal disturbance of rod and cone photoreceptor function. Detectable structural change by OCT at the level of the RPE- CC can be present in patches of retina with minimal functional disturbance. More advanced disease stages in heterozygotes show greater rod than cone dysfunction, and the end stage in hemizygotes and heterozygotes is that of typical RP, with only barely detectable cone function from residual cones in a thinned retina with abnormal RPE and choriocapillaris.

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				M. A. Sandberg, R. J. Brockhurst, A. R. Gaudio, and E. L. Berson The Association between Visual Acuity and Central Retinal Thickness in Retinitis Pigmentosa Invest. Ophthalmol. Vis. Sci., September 1, 2005; 46(9): 3349 - 3354. [Abstract] [Full Text] [PDF]

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				T. A. Mavlyutov, H. Zhao, and P. A. Ferreira Species-specific subcellular localization of RPGR and RPGRIP isoforms: implications for the phenotypic variability of congenital retinopathies among species Hum. Mol. Genet., August 1, 2002; 11(16): 1899 - 1907. [Abstract] [Full Text] [PDF]

				Z. Yang, N. S. Peachey, D. M. Moshfeghi, S. Thirumalaichary, L. Chorich, Y. Y. Shugart, K. Fan, and K. Zhang Mutations in the RPGR gene cause X-linked cone dystrophy Hum. Mol. Genet., March 1, 2002; 11(5): 605 - 611. [Abstract] [Full Text] [PDF]

				N. Horio, S. Kachi, K. Hori, Y. Okamoto, E. Yamamoto, H. Terasaki, and Y. Miyake Progressive Change of Optical Coherence Tomography Scans in Retinal Degeneration Slow Mice Arch Ophthalmol, September 1, 2001; 119(9): 1329 - 1332. [Abstract] [Full Text] [PDF]

				T. S. Aleman, J. L. Duncan, M. L. Bieber, E. de Castro, D. A. Marks, L. M. Gardner, J. D. Steinberg, A. V. Cideciyan, M. G. Maguire, and S. G. Jacobson Macular Pigment and Lutein Supplementation in Retinitis Pigmentosa and Usher Syndrome Invest. Ophthalmol. Vis. Sci., July 1, 2001; 42(8): 1873 - 1881. [Abstract] [Full Text] [PDF]

				S. G. Jacobson, A. V. Cideciyan, A. Iannaccone, R. G. Weleber, G. A. Fishman, A. M. Maguire, L. M. Affatigato, J. Bennett, E. A. Pierce, M. Danciger, et al. Disease Expression of RP1 Mutations Causing Autosomal Dominant Retinitis Pigmentosa Invest. Ophthalmol. Vis. Sci., June 1, 2000; 41(7): 1898 - 1908. [Abstract] [Full Text]

				C. J. Zeiss, G. M. Acland, and G. D. Aguirre Retinal Pathology of Canine X-linked Progressive Retinal Atrophy, the Locus Homologue of RP3 Invest. Ophthalmol. Vis. Sci., December 1, 1999; 40(13): 3292 - 3304. [Abstract] [Full Text] [PDF]

				D. Yan, P. K. Swain, D. Breuer, R. M. Tucker, W. Wu, R. Fujita, A. Rehemtulla, D. Burke, and A. Swaroop Biochemical Characterization and Subcellular Localization of the Mouse Retinitis Pigmentosa GTPase Regulator (mRpgr) J. Biol. Chem., July 31, 1998; 273(31): 19656 - 19663. [Abstract] [Full Text] [PDF]

				G. A. Fishman, S. Grover, M. Buraczynska, W. Wu, and A. Swaroop A New 2-Base Pair Deletion in the RPGR Gene in a Black Family With X-Linked Retinitis Pigmentosa Arch Ophthalmol, February 1, 1998; 116(2): 213 - 218. [Abstract] [Full Text] [PDF]

				D.-H. Hong, B. S. Pawlyk, J. Shang, M. A. Sandberg, E. L. Berson, and T. Li A retinitis pigmentosa GTPase regulator (RPGR)- deficient mouse model for X-linked retinitis pigmentosa (RP3) PNAS, March 28, 2000; 97(7): 3649 - 3654. [Abstract] [Full Text] [PDF]

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Disease expression in X-linked retinitis pigmentosa caused by a putative null mutation in the RPGR gene