Tay-Sachs & Sandhoff Diseases (GM2-Gangliosidosis)
Among all of the lysosomal storage disorders, the GM2 gangliosidoses are the most investigated subcategory. They are caused by the impaired degradation of GM2 ganglioside, a reaction which is normally catalyzed by the β-hexosaminidase A (HexA) enzyme. Hex A is a dimer of two proteins subunits, α and β, encoded by the HEXA and HEXB genes. Mutations of these two genes will lead to the accumulation of the GM2-ganglioside within the lysosomes, as observed in both Tay-Sachs (http://www.omim.org/entry/272800) and Sandhoff (http://www.omim.org/entry/268800 ) disease.
In Tay-Sachs disease (TSD), the lysosomal engulfment is confined to neurons and results in a massive apoptosis and a subsequent reactive gliosis. Such a precipitous neurodegeneration primarily affects motor and spinocerebellar functions.
Although more common in certain ethnic groups, Tay-Sachs is a rare disease itself, an incidence of one in 320,000 births in the general population. Depending on the age of disease onset and the enzymatic activity, Tay-Sachs can be further classified into:
Infantile Form
The symptoms begin at 3-5 months of age and consist of motor and regression of previously acquired motor skill, which becomes rapidly fatal after 8-10 months of age. By this time the ophthalmoscopic examination could easily reveal macular pallor and prominence of the fovea centralis: the 'cherry-red spot' sign which, although non-specific, is a common finding in TSD.
Juvenile Form
Milder, the first symptoms are observed in children between two and ten years of age and mainly consists of cognitive and motor deterioration, as well as dysarthria, dysphagia and spasticity.
Adult Form
The rarest one, non-fatal and usually misdiagnosed with schizophrenia-like psychoses.
