Limited proteolysis differentially modulates the stability and subcellular localization of domains of RPGRIP1 that are distinctly affected by mutations in Leber's congenital amaurosis

doi:10.1093/hmg/ddi143

Human Molecular Genetics Advance Access originally published online on March 30, 2005
Human Molecular Genetics 2005 14(10):1327-1340; doi:10.1093/hmg/ddi143

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Limited proteolysis differentially modulates the stability and subcellular localization of domains of RPGRIP1 that are distinctly affected by mutations in Leber's congenital amaurosis

Xinrong Lu, Mallikarjuna Guruju, John Oswald and Paulo A. Ferreira^*^,

Department of Pharmacology and Toxicology, Medical College of Wisconsin, 8701 Watertown Plank Road, Milwaukee, WI 53226, USA

^* To whom correspondence should be addressed. Tel: +1 4144568877; Fax: +1 4144566545; Email: ferreira{at}mcw.edu

Received February 2, 2005; Revised March 15, 2005; Accepted March 23, 2005

The retinitis pigmentosa GTPase regulator (RPGR) protein interactswith the retinitis pigmentosa GTPase regulator interacting protein-1(RPGRIP1). Genetic lesions in the cognate genes lead to distinctand severe human retinal dystrophies. The biological role ofthese proteins in retinal function and pathogenesis of retinaldiseases is elusive. Here, we present the first physiologicalassay of the role of RPGRIP1 and mutations therein. We foundthat the monoallelic and homozygous mutations, ${Delta}$ E1279 and D1114G,in the RPGR-interacting domain (RID) of RPGRIP1, enhance andabolish, respectively, its interaction in vivo with RPGR withoutaffecting the stability of RID. In contrast to RID^WT and RID^D1114G,chemical genetics shows that the interaction of RID^E1279 withRPGR is resistant to various stress treatments such as osmotic,pH and heat-shock stimuli. Hence, RID^D1114G and RID^E1279 constituteloss- and gain-of-function mutations. Moreover, we find thatthe isoforms, bRPGRIP1 and bRPGRIP1b, undergo limited proteolysisconstitutively in vivo in the cytoplasm compartment. This leadsto the relocation and accumulation of a small and stable N-terminaldomain of $~$ 7 kDa to the nucleus, whereas the cytosolic C-terminaldomain of RPGRIP1 is degraded and short-lived. The RID^D1114Gand RID^E1279 mutations exhibit strong cis-acting and antagonisticbiological effects on the nuclear relocation, subcellular distributionand proteolytic cleavage of RPGRIP1 and/or domains thereof.These data support distinct and spatiotemporal subcellular-specificroles to RPGRIP1. A novel RPGRIP1-mediated nucleocytoplasmiccrosstalk and transport pathway regulated by RID, and henceby RPGR, emerges with implications in the molecular pathogenesisof retinopathies, and a model to other diseases.

Address after June 1, 2005: Departments of Ophthalmology andMolecular Genetics and Microbiology, Duke University MedicalCenter, Erwin Road, Durham, NC 27710, USA. Email: ferre044{at}mc.duke.edu

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