Browsing by Author "Roberts, Lisa"

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    A Founder Mutation in MYO7A Underlies a Significant Proportion of Usher Syndrome in Indigenous South Africans: Implications for the African Diaspora
    (Association for Research in Vision and Ophthalmology (ARVO), 2015-10) Roberts, Lisa; George, Siddiqah; Greenberg, Jacquie; Ramesar, Raj
    PURPOSE. Research over the past 25 years at the University of Cape Town has led to the identification of causative mutations in 17% of the 1416 families in the Retinal Degenerative Diseases (RDD) biorepository in South Africa. A low rate of mutation detection has been observed in patients of indigenous African origin, hinting at novel genes and mutations in this population. Recently, however, data from our translational research program showed two unrelated indigenous African families with Usher syndrome (USH), with the same homozygous MYO7A mutation. Therefore, the extent to which this mutation contributes toward the disease burden in South Africa was investigated. METHODS. Cohorts of unrelated indigenous South African probands with different RDD diagnoses were tested for the MYO7A c.6377delC mutation. Familial cosegregation analysis was performed for homozygous probands, clinical data were evaluated, and SNP haplotypes were analyzed. RESULTS. This homozygous MYO7A mutation underlies a remarkable 43% of indigenous African USH cases investigated in this study, the majority of which (60%) were diagnosed clinically with Type 2 USH. All homozygotes shared a common haplotype. This mutation does not appear to cause nonsyndromic vision loss. CONCLUSIONS. Of interest is the origin of this common mutation relevant to the Bantu population migration into southern Africa. Further investigation of the phenotype may elucidate the disease biology, and perhaps reveal a larger cohort with the same mutation, with which to assess the impact of environmental and genetic modifiers and evaluate therapeutic trials.
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    Genetics of age-related macular degeneration and Stargardt disease in South African populations
    (2016) Baard, Johannes; Ramesar, Rajkumar; Roberts, Lisa
    Background: The Retinal Degenerative Diseases (RDD) Research Group in the Division of Human Genetics at UCT has for the past 25 years been intensively investigating a range of RDD phenotypes. Two points of particular note have emerged regarding Macular Degenerations (MD) : (i) that more than 58% of juvenile MD, notably Stargardt Disease (STGD) , in Caucasian populations may have the underlying causative genetic defect identified , while only 1 1 % of the similar phenotype in indigenous African populations is resolved, and (ii) that the 'elderly' form of MD, i.e. age - related macular degeneration (AMD) has a remarkably lower incidence in the indigenous African population when compared to any other population group, and most notably the Caucasian (or European - derived) population /s . This study investigates the genetic factors underlying macular degeneration (MD) in our study cohort comprising various South African ethnolinguistic groups with particular focus on disease in juvenile and elderly indigenous Africans. Materials and Methods: For the STGD part of the study, sequencing of the entire ABCA4 coding and splice region (comprising 50 amplicons) was performed in three African STGD patients who were representative of three common haplotypes identified within the larger cohort of 36 patients . Pathogenicity predictive software, PON - P and Human Splice Finder (HSF), were used for in silico data analysis. For the AMD subset: Available local indigenous southern African population - based genome - wide S ingle Nucleotide Polymorphism (SNP) chip (Affymetrix SNP6) data was used to identify SNPs within known AMD candidate genes in which allele frequencies were significantly different (i.e. 10 fold) between Caucasians and indigenous southern Africans. Nine SNPs occurring at higher frequencies within Africans compared to Caucasian controls were genotyped by SNaPshot PCR within a multi - ethnic AMD SA cohort. Minor allele frequencies (MAF) were compared using SHEsis. Results: Sequencing of ABCA 4 in three African STGD patients produced 39 unique variants, out of which only one, (V643M), was deemed pathogenic. HSF predicted 22 of these non - exonic variants to be 'possibly pathogenic', confounding analysis. No variants segregated with the common haplotypes. Regarding the AMD cohort, eight SNPs in candidate AMD genes showed a decreased MAF in African AMD cases compared to controls, two of which (rs9621622 in TIMP3 and rs17110714 in ABCA4 ), were statistically significant ( p values of 9.95 x 10 - 4 and 1.04 x 10 - 2 , respectively). Discussion and Conclusion: Although a number of variants were identified in the coding region of three haplotype - representative STGD subjects, only one variant proved pathogenic but did not co - segregate with the haplotype in the rest of the samples. It is possible that variants in regulatory regions not captured by the exonic screening might be involved, or that another gene may be imp licated in the 'STGD - like' phenotype in the indigenous African subjects. In the second part of the study, the investigation of the African AMD cohort suggested that SNPs in TIMP3 and ABCA4 are associated with a decreased susceptibility, and may therefore plausibly be protective for AMD in indigenous Africans. Overall, however, this should be considered only a pilot study of macular degeneration in the indigenous African population, providing leads to larger scale studies of this group of disorders in this population group.
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    A mutation in a splicing factor that causes retinitis pigmentosa has a transcriptome-wide effect on mRNA splicing
    (BioMed Central, 2014-06-27) Korir, Paul K; Roberts, Lisa; Ramesar, Raj; Seoighe, Cathal
    Background: Substantial progress has been made in the identification of sequence elements that control mRNA splicing and the genetic variants in these elements that alter mRNA splicing (referred to as splicing quantitative trait loci – sQTLs). Genetic variants that affect mRNA splicing in trans are harder to identify because their effects can be more subtle and diffuse, and the variants are not co-located with their targets. We carried out a transcriptome-wide analysis of the effects of a mutation in a ubiquitous splicing factor that causes retinitis pigmentosa (RP) on mRNA splicing, using exon microarrays. Results: Exon microarray data was generated from whole blood samples obtained from four individuals with a mutation in the splicing factor PRPF8 and four sibling controls. Although the mutation has no known phenotype in blood, there was evidence of widespread differences in splicing between cases and controls (affecting approximately 20% of exons). Most probesets with significantly different inclusion (defined as the expression intensity of the exon divided by the expression of the corresponding transcript) between cases and controls had higher inclusion in cases and corresponded to exons that were shorter than average, AT rich, located towards the 5’ end of the gene and flanked by long introns. Introns flanking affected probesets were particularly depleted for the shortest category of introns, associated with splicing via intron definition. Conclusions: Our results show that a mutation in a splicing factor, with a phenotype that is restricted to retinal tissue, acts as a trans-sQTL cluster in whole blood samples. Characteristics of the affected exons suggest that they are spliced co-transcriptionally and via exon definition. However, due to the small sample size available for this study, further studies are required to confirm the widespread impact of this PRPF8 mutation on mRNA splicing outside the retina.