Intracellular retention of mutant retinoschisin is the pathological mechanism underlying X-linked retinoschisis

doi:10.1093/hmg/11.24.3097

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Human Molecular Genetics, 2002, Vol. 11, No. 24 3097-3105
© 2002 Oxford University Press

Intracellular retention of mutant retinoschisin is the pathological mechanism underlying X-linked retinoschisis

Tao Wang¹, Caroline T. Waters¹, Alex M.K. Rothman¹, Tracy J. Jakins¹, Karin Römisch² and Dorothy Trump¹^,*

¹Department of Medical Genetics and Cambridge Institute for Medical Research, University of Cambridge, CB2 2XY, UK and ²Department of Clinical Biochemistry and Cambridge Institute for Medical Research, University of Cambridge, CB2 2XY, UK

Received August 14, 2002; Accepted September 20, 2002

X-linked retinoschisis results in visual loss in early lifewith splitting within the inner retinal layers. Many missenseand protein truncating mutations of the causative gene RS1 (encodingretinoschisin) have been identified but disease severity isnot mutation-dependent. Retinoschisin is a soluble secretoryprotein predicted to have a globular conformation. Missensemutations would be expected to interfere with protein foldingleading to an abnormal conformation and intracellular retentionand elimination. To test this hypothesis we have expressed sevenpathological RS1 mutations (L12H, C59S, G70S, R102W, G109R,R141G and R213W) in COS-7 cells and investigated their intracellularprocessing and transport. Using immunoblotting and confocalfluorescent immunocytochemistry we show normal secretion ofWT RS1, but either reduced (C59S and R141G) or absent (L12H,G70S, R102W, G109R and R213W) secretion of mutant RS1 and intracellularretention. In addition, we show that L12H RS1 is degraded byproteasomes and in vitro transcription/translation revealedthe defects in both cleavage of its signal peptide and translocationinto the endoplasmic reticulum. Our results indicate the pathologicalbasis of RS1 is intracellular retention of the majority of mutantproteins, which may explain why disease severity is not mutation-specific.Furthermore, we have shown that in vitro expression of RS1 maybe a useful functional assay to investigate the pathogenicityof sequence changes within the RS1 gene.

^* To whom correspondence should be addressed at: Department ofMedical Genetics, Cambridge Institute for Medical Research,University of Cambridge, Addenbrooke's Hospital, Hills Rd, Cambridge,CB2 2XY, UK. Tel: +44 1223331139; Fax: +44 1223331206; Email:dt207{at}cam.ac.uk

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				L. L. Molday, W. W. H. Wu, and R. S. Molday Retinoschisin (RS1), the Protein Encoded by the X-linked Retinoschisis Gene, Is Anchored to the Surface of Retinal Photoreceptor and Bipolar Cells through Its Interactions with a Na/K ATPase-SARM1 Complex J. Biol. Chem., November 9, 2007; 282(45): 32792 - 32801. [Abstract] [Full Text] [PDF]

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				W. W. H. Wu, J. P. Wong, J. Kast, and R. S. Molday RS1, a Discoidin Domain-containing Retinal Cell Adhesion Protein Associated with X-linked Retinoschisis, Exists as a Novel Disulfide-linked Octamer J. Biol. Chem., March 18, 2005; 280(11): 10721 - 10730. [Abstract] [Full Text] [PDF]

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