A Role for the Tubby-Like Protein 1 in Rhodopsin Transport

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A Role for the Tubby-Like Protein 1 in Rhodopsin Transport

Stephanie A. Hagstrom¹^,2^,3, Michael Adamian¹, Michael Scimeca¹, Basil S. Pawlyk¹, Guohua Yue¹ and Tiansen Li¹

¹ From the Berman-Gund Laboratory for the Study of Retinal Degenerations and ² Ocular Molecular Genetics Institute, Harvard Medical School, Massachusetts Eye and Ear Infirmary, Boston, Massachusetts.

PURPOSE. To test the hypothesis that a lack of Tubby-like protein1 (TULP1) function causes aberrant transport of nascent rhodopsinand to examine the functional relationship between the homologousproteins TULP1 and Tubby by studying mice carrying combinedmutations.

METHODS. Subcellular localization of TULP1 and rhodopsin inphotoreceptors was determined by immunofluorescence and by postembeddingimmunoelectron microscopy. Mice carrying different tulp1/tubbyallele combinations were examined by histology, electroretinograms(ERGs), and immunofluorescence microscopy.

RESULTS. TULP1 is distributed throughout the photoreceptor cytoplasmbut is excluded from the outer segments and the nuclei. In the tulp1-/-mice, ectopic accumulation of rhodopsin occurs at an early age.Both the vesicular profiles in the interphotoreceptor spaceand the inner segment plasma membranes are immunoreactive forrhodopsin. Mice doubly homozygous for null mutations in thetulp1 and tubby genes initially develop photoreceptors and express abattery of photoreceptor markers at age 14 days. Thereaftertheir photoreceptors undergo a fulminant degeneration that reachescompletion by postnatal day 17. The disease phenotype in thedouble homozygote is much more severe than either single homozygote.Double heterozygotes are phenotypically normal.

CONCLUSIONS. A lack of TULP1 function results in misroutingof nascent rhodopsin. TULP1 may be a component of the cellularmachinery that targets nascent rhodopsin to the outer segments.Comparison of disease phenotypes in the single and double mutantssuggests that TULP1 and Tubby are not functionally interchangeablein photoreceptors nor do they form an obligate functional complex.

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				Q. Xi, G. J. T. Pauer, S. L. Ball, M. Rayborn, J. G. Hollyfield, N. S. Peachey, J. W. Crabb, and S. A. Hagstrom Interaction between the Photoreceptor-Specific Tubby-like Protein 1 and the Neuronal-Specific GTPase Dynamin-1 Invest. Ophthalmol. Vis. Sci., June 1, 2007; 48(6): 2837 - 2844. [Abstract] [Full Text] [PDF]

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				Y. Wang, K. Seburn, L. Bechtel, B. Y. Lee, J. P. Szatkiewicz, P. M. Nishina, and J. K. Naggert Defective carbohydrate metabolism in mice homozygous for the tubby mutation Physiol Genomics, October 11, 2006; 27(2): 131 - 140. [Abstract] [Full Text] [PDF]

				Q. Xi, G. J. T. Pauer, A. D. Marmorstein, J. W. Crabb, and S. A. Hagstrom Tubby-like Protein 1 (TULP1) Interacts with F-actin in Photoreceptor Cells Invest. Ophthalmol. Vis. Sci., December 1, 2005; 46(12): 4754 - 4761. [Abstract] [Full Text] [PDF]

				Y. Zhao, D.-H. Hong, B. Pawlyk, G. Yue, M. Adamian, M. Grynberg, A. Godzik, and T. Li The retinitis pigmentosa GTPase regulator (RPGR)- interacting protein: Subserving RPGR function and participating in disk morphogenesis PNAS, April 1, 2003; 100(7): 3965 - 3970. [Abstract] [Full Text] [PDF]

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				J. Gao, K. Cheon, S. Nusinowitz, Q. Liu, D. Bei, K. Atkins, A. Azimi, S. P. Daiger, D. B. Farber, J. R. Heckenlively, et al. Progressive photoreceptor degeneration, outer segment dysplasia, and rhodopsin mislocalization in mice with targeted disruption of the retinitis pigmentosa-1 (Rp1) gene PNAS, April 16, 2002; 99(8): 5698 - 5703. [Abstract] [Full Text] [PDF]

				A. Ikeda, P. M. Nishina, and J. K. Naggert The tubby-like proteins, a family with roles in neuronal development and function J. Cell Sci., January 1, 2002; 115(1): 9 - 14. [Abstract] [Full Text] [PDF]