AI Article Synopsis
- Leber congenital amaurosis (LCA) is a severe retinal degeneration with two types: Type I (congenital stationary) and Type II (progressive rod-cone dystrophy), linked to specific genetic mutations.
- Out of twelve identified LCA genes, most are primarily expressed in the retina, with LCA5 and CEP290 associated with broader phenotypic variations beyond just retinal issues.
- This study found high expression levels of the SPATA7 gene in the retina, brain, and testis, identifying several SPATA7 mutations in LCA patients, suggesting a connection to rod-cone dystrophy specifically.
Article Abstract
Leber congenital amaurosis (LCA) is the earliest and most severe retinal degeneration. It may present as a congenital stationary cone-rod dystrophy (LCA type I) or a progressive yet severe rod-cone dystrophy (LCA type II). Twelve LCA genes have been identified, three of which account for Type I and nine for LCA type II. All proteins encoded by these genes but two are preferentially expressed in the retina and are responsible for non-syndromic LCA only. By contrast LCA5 and CEP290 are widely expressed and mutations in this latter result in a variety of phenotypes from non-syndromic retinal degeneration to pleiotropic disorders including senior-Loken (SNLS) and Joubert syndromes (JBTS). Recently, mutations in the widely expressed gene SPATA7 were reported to cause LCA or juvenile retinitis pigmentosa. The purpose of this study was i) to determine the level of expression of two major alternative SPATA7 transcripts in a large range of tissues and ii) to assess the involvement of this novel gene in a large cohort of unrelated patients affected with LCA (n = 134). Here, we report high SPATA7expression levels in retina, brain and testis with differential expression of the two transcripts. SPATA7 mutations were identified in few families segregating non-syndromic LCA (n = 4/134). Six different mutations were identified, four of which are novel; All affected both SPATA7 transcripts. The clinical evaluation of patients suggested that SPATA7 mutations account for the rod-cone dystrophy type of the disease.
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| http://dx.doi.org/10.1002/humu.21203 | DOI Listing |
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