@article {Nguyen624, author = {Thanh-Minh T Nguyen and Sarah Hull and Ronald Roepman and L Ingeborgh van den Born and Machteld M Oud and Erik de Vrieze and Lisette Hetterschijt and Stef J F Letteboer and Sylvia E C van Beersum and Ellen A Blokland and Helger G Yntema and Frans P M Cremers and Paul A van der Zwaag and Gavin Arno and Erwin van Wijk and Andrew R Webster and Lonneke Haer-Wigman}, title = {Missense mutations in the WD40 domain of AHI1 cause non-syndromic retinitis pigmentosa}, volume = {54}, number = {9}, pages = {624--632}, year = {2017}, doi = {10.1136/jmedgenet-2016-104200}, publisher = {BMJ Publishing Group Ltd}, abstract = {Background Recent findings suggesting that Abelson helper integration site 1 (AHI1) is involved in non-syndromic retinal disease have been debated, as the functional significance of identified missense variants was uncertain. We assessed whether AHI1 variants cause non-syndromic retinitis pigmentosa (RP).Methods Exome sequencing was performed in three probands with RP. The effects of the identified missense variants in AHI1 were predicted by three-dimensional structure homology modelling. Ciliary parameters were evaluated in patient{\textquoteright}s fibroblasts, and recombinant mutant proteins were expressed in ciliated retinal pigmented epithelium cells.Results In the three patients with RP, three sets of compound heterozygous variants were detected in AHI1 (c.2174G\>A; p.Trp725* and c.2258A\>T; p.Asp753Val, c.660delC; p.Ser221Glnfs*10 and c.2090C\>T; p.Pro697Leu, c.2087A\>G; p.His696Arg and c.2429C\>T; p.Pro810Leu). All four missense variants were present in the conserved WD40 domain of Jouberin, the ciliary protein encoded by AHI1, with variable predicted implications for the domain structure. No significant changes in the percentage of ciliated cells, nor in cilium length or intraflagellar transport were detected. However, expression of mutant recombinant Jouberin in ciliated cells showed a significantly decreased enrichment at the ciliary base.Conclusions This report confirms that mutations in AHI1 can underlie autosomal recessive RP. Moreover, it structurally and functionally validates the effect of the RP-associated AHI1 variants on protein function, thus proposing a new genotype{\textendash}phenotype correlation for AHI1 mutation associated retinal ciliopathies.}, issn = {0022-2593}, URL = {https://jmg.bmj.com/content/54/9/624}, eprint = {https://jmg.bmj.com/content/54/9/624.full.pdf}, journal = {Journal of Medical Genetics} }