Heterologous expression and characterization of a rare Gaucher disease mutation (c.481C > T) from a Canadian aboriginal population using archival tissue samples.

Gaucher disease is an inherited sphingolipidosis resulting from deleterious mutations in the glucocerebrosidase gene. Through direct sequence analysis of genomic DNA from whole blood, fibroblast cultures, and formalin-fixed archival tissue samples, we have identified a rare homozygous C > T transition at cDNA nucleotide 481 of the glucocerebrosidase gene that results in a proline to serine amino acid substitution (p.P122S) in an aboriginal family of Cree descent in northern Alberta, Canada. A 13-month-old boy (JB) presented with severe visceral Gaucher disease and was treated with enzyme replacement. Currently, at 11 years he is developmentally delayed, with oculomotor apraxia. A cousin (MS) had previously died at age 7 from complications of severe Gaucher disease, before enzyme replacement therapy was available. She was also developmentally delayed. Heterologous expression of this allele using a baculovirus expression system revealed 19.2% of normal enzyme activity on the artificial substrate 4-methylumbelliferyl beta-d-glucopyranoside (4MUGP). Genotype/phenotype correlation is complicated by incomplete clinical details, enzyme replacement therapy, and the difficulty in excluding other genetic and environmental causes of developmental delay. However the development of oculomotor apraxia in JB suggests a Type 3 Gaucher phenotype. The only previous report of this mutation was also from a member of the Cree Nation, who has had a rather similar clinical course. A protocol is described for the isolation of genomic DNA from formalin-fixed bone marrow aspirate archival specimens obtained from the deceased for subsequent PCR-based sequence analysis and mutation detection. This technique will be applicable to the screening of this and other populations for the frequency of known Gaucher mutations where traditional DNA sources are unavailable.