Investigation of SLA4A3 as a candidate gene for human retinal disease.

Louise M Downs, Andrew R Webster, Anthony T Moore, Michel Michaelides, Robin R Ali, Alison J Hardcastle, Cathryn S Mellersh
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Abstract

SLC4A3 has been shown to cause retinal degeneration in a genetically engineered knockout mouse, and in a naturally occurring form of canine progressive retinal atrophy considered to be the equivalent of retinitis pigmentosa in humans (RP). This study was undertaken to investigate if SLC4A3 coding variants were implicated in human retinal degeneration. SLC4A3 exons were amplified and sequenced in 200 patients with autosomal recessive retinal degeneration who had no known molecular diagnosis for their condition, which included 197 unrelated individuals with suspected RP and three individuals with other forms of retinal disease. Three rare variants were identified that were predicted to be potentially pathogenic, however each variant was heterozygous in a single patient and therefore not considered disease-causing in isolation. Of these three variants, SNP-3 was the rarest, with an allele frequency of 7.06 x 10(-5) (>46,000 exomes from the ExAC database). In conclusion, no compound heterozygous or homozygous potentially pathogenic variants were identified that would account for recessive RP or retinal degeneration in this cohort, however the possibility remains that the rare variants identified could be acting with as yet undiscovered mutations in introns or regulatory regions. SLC4A3 remains an excellent candidate gene for human retinal degeneration, and with the advent of whole exome and whole genome sequencing of cohorts of molecularly unsolved patients with syndromic and non-syndromic forms of retinal degeneration, SLC4A3 may yet be implicated in human disease.

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SLA4A3作为人视网膜疾病候选基因的研究。
SLC4A3已被证明在基因工程敲除小鼠中引起视网膜变性,并在自然发生的犬进行性视网膜萎缩形式中被认为相当于人类视网膜色素变性(RP)。本研究旨在探讨SLC4A3编码变异是否与人类视网膜变性有关。对200例常染色体隐性视网膜变性患者的SLC4A3外显子进行了扩增和测序,这些患者没有已知的分子诊断,其中包括197例疑似RP的无亲缘关系个体和3例其他形式的视网膜疾病个体。发现了三种罕见的变异,预计可能具有致病性,但每种变异在单个患者中都是杂合的,因此不被认为是单独致病的。在这三个变体中,SNP-3是最罕见的,等位基因频率为7.06 x 10(-5) (ExAC数据库>46,000外显子组)。总之,在这个队列中,没有发现复合杂合或纯合的潜在致病性变异体可以解释隐性RP或视网膜变性,但是仍然有可能发现的罕见变异体可能与内含子或调控区域中尚未发现的突变一起作用。SLC4A3仍然是人类视网膜变性的优秀候选基因,随着对综合征型和非综合征型视网膜变性分子未解患者队列的全外显子组和全基因组测序的出现,SLC4A3可能仍与人类疾病有关。
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