, 2011) Second, the hexanucleotide expansion was highly associat

, 2011). Second, the hexanucleotide expansion was highly associated with disease in the same cohort of ALS cases Veliparib price and controls that was used to identify the chromosome 9p21 region within the Finnish population. Furthermore, the association signal based on the presence or absence of the expansion was many times greater than that indicated by the surrounding SNPs (p value based on expansion = 8.1 × 10−38 versus 9.11 × 10−11 based on the most associated SNP rs3849942 in the initial Finnish ALS GWAS) (Laaksovirta et al., 2010).

Third, the hexanucleotide repeat expansion was not found in 409 population-matched control subjects or in 300 diverse population samples screened in our laboratory. Fourth, we found that a large proportion of apparently unrelated familial ALS and FTD cases carried the same hexanucleotide repeat expansion within C9ORF72. Within this cohort of European-ancestry familial samples, we identified SAR405838 three additional multigenerational families within which the repeat expansion segregated perfectly with disease. Fifth, FISH analysis demonstrated that the repeat expansion

is large in size (at least 1.5 kb to be visualized by this technique, Figure 2C), and such long expansions are typically pathogenic ( Kobayashi et al., 2011). Finally, another group independently discovered the same genetic mutation to be the cause of chromosome 9p21-linked FTD/ALS ( DeJesus-Hernandez et al., 2011). Our data indicate that both ALS and FTD phenotypes are associated

with the C9ORF72 GGGGCC hexanucleotide repeat expansion. Several members of the GWENT#1 and DUTCH#1 pedigrees manifested clinical signs of isolated motor neuron dysfunction or isolated cognitive decline, whereas other affected members developed mixed ALS-FTD symptomatology over the course of their illness ( Pearson et al., 2011). It is interesting to note that the frequency of the repeat expansion was almost identical in our ALS and FTD case cohorts, suggesting that carriers of the mutant allele are equally at risk for both forms of neurodegeneration. Our data support the notion that the observed clinical and pathological overlap between ALS and FTD forms of neurodegeneration may be driven in large part by the C9ORF72 hexanucleotide repeat expansion. MTMR9 The identification of the cause of chromosome 9p21-linked neurodegeneration allows for future screening of population-based cohorts to further unravel the overlap between ALS and FTD and to identify additional genetic and environmental factors that push an individual’s symptoms toward one end of the ALS/FTD clinical spectrum. Some early observations may already be made: among our Finnish FTD cohort, we identified several patients carrying the pathogenic repeat expansion who presented with nonfluent progressive aphasia.

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