Ciliopathies are a wide and heterogeneous group of diseases affecting intraflagellar transport. Among them, Mainzer-Saldino syndrome (MSS) shows phalangeal cone-shaped epiphysis, renal disease and retinal involvement. Short stature, cerebellar ataxia and hepatic fibrosis might also be found. IFT140 is the most commonly reported mutation in MSS. We will report on the case of a patient with a clinical diagnosis of Mainzer-Saldino syndrome due to IFT144 dysfunction. This mutation has not been previously related to MSS but it has been found in other ciliopathies and both syndromic and non-syndromic retinitis pigmentosa. At birth our patient showed trigonocephaly, early progressive renal failure requiring transplant, intrahepatic biliary duct dilation, cone-shaped epiphyses, growth retardation and retinitis pigmentosa with mild ophthalmic impairment. The best corrected visual acuity reached 0.15/0.22 LogMAR. The posterior pole showed abnormal macular reflex, mild vascular attenuation in the periphery and diffuse pigmentary changes. Autofluorescence showed bull\'s eye signal increase. Computerized optic tomography assessed the absence of external retinal layers in the extrafoveal macula. In conclusion, IFT144 genetic study may be involved in MSS and thus must be considered for diagnosis. Mild ophthalmic symptomatology despite early onset retinitis pigmentosa in the context of MSS has been found in this case caused by IFT144 mutation.

Autosomal recessive retinitis pigmentosa (arRP) is a clinically and genetically heterogeneous retinal disease that causes blindness. Our purpose was to identify the causal gene, describe the phenotype and delineate the mutation spectrum in a consanguineous Quebec arRP family. We performed Arrayed Primer Extension (APEX) technology to exclude ∼500 arRP mutations in ∼20 genes. Homozygosity mapping [single nucleotide polymorphism (SNP) genotyping] identified 10 novel significant homozygous regions. We performed next generation sequencing and whole exome capture. Sanger sequencing provided cosegregation. We screened another 150 retinitis pigmentosa (RP) and 200 patients with Senior-Løken Syndrome (SLS). We identified a novel missense mutation in WDR19, c.2129T>C which lead to a p.Leu710Ser. We found the same mutation in a second Quebec arRP family. Interestingly, two of seven affected members of the original family developed \'sub-clinical\' renal cysts. We hypothesized that more severe WDR19 mutations may lead to severe ciliopathies and found seven WDR19 mutations in five SLS families. We identified a new gene for both arRP and SLS. WDR19 is a ciliary protein associated with the intraflagellar transport machinery. We are currently investigating the full extent of the mutation spectrum. Our findings are crucial in expanding the understanding of childhood blindness and identifying new genes.