Exome sequencing as a diagnostic tool in a case of undiagnosed juvenile-onset GM1-gangliosidosis.

[gm1 gangliosidosis]

To utilize high -throughput sequencing to determine the etiology of juvenile -onset neurodegeneration in a 19 -year -old woman with progressive motor and cognitive decline .Exome sequencing identified an initial list of 133 ,555 variants in the proband 's family , which were filtered using segregation analysis , presence in dbSNP , and an empirically derived gene exclusion list . The filtered list comprised 52 genes : 21 homozygous variants and 31 compound heterozygous variants . These variants were subsequently scrutinized with predicted pathogenicity programs and for association with appropriate clinical syndromes .Exome sequencing data identified 2 GLB 1 variants (c .602 G >A , p .R 201 H ; c .785 G >T , p .G 262 V ). β-Galactosidase enzyme analysis prior to our evaluation was reported as normal ; however , subsequent testing was consistent with juvenile -onset GM 1 -gangliosidosis . Urine oligosaccharide analysis was positive for multiple oligosaccharides with terminal galactose residues .We describe a patient with juvenile -onset neurodegeneration that had eluded diagnosis for over a decade . GM 1 -gangliosidosis had previously been excluded from consideration , but was subsequently identified as the correct diagnosis using exome sequencing . Exome sequencing can evaluate genes not previously associated with neurodegeneration , as well as most known neurodegeneration -associated genes . Our results demonstrate the utility of "agnostic " exome sequencing to evaluate patients with undiagnosed disorders , without prejudice from prior testing results .