RESUMO
We report a consanguineous family from Saudi Arabia with three affected children presenting with infantile nephrotic syndrome. In order to provide a molecular diagnosis, a genome-wide SNP analysis of the affected patients was performed. We identified a region of homozygosity on chromosome 1, containing the NPHS2 gene. Direct sequencing, by exon PCR, of NPHS2 identified a homozygous nucleotide change 385C > T within exon 3 in the three affected children, leading to a premature stop codon (Q129X). This homozygous truncating mutation in NPHS2 is novel and was associated with a severe clinical phenotype. Additional mutations in related genes NPHS1, PLCE1 and NEPH1 were not identified, excluding tri-allelism within these genes in this family.
RESUMO
The increased frequency of rare autosomal recessive conditions in genetically isolated populations is a well-established phenomenon. This genetic isolation is invoked as an explanation when one particular mutation is the sole or most frequent mutation observed in a given population and is referred to as the founder effect. This trend of allelic homogeneity is contrasted by an opposite trend when the consanguinity factor is in play. Independent of endogamy at the population level, a consanguineous union is sufficient to render homozygous a percentage of the genome that is directly correlated with the degree of consanguinity. Assuming the gene in question has a normal mutation rate, the resulting homozygosity will inevitably include different defective alleles of that gene. By reporting four novel alleles, we use Alström disease to exemplify the interesting observation of allelic heterogeneity for a very rare autosomal recessive disorder in a highly inbred population. While we frequently assume founder effect in inbred populations, this report should serve to remind us of the powerful effect of the consanguinity factor, a common confounding variable among some of those populations.
