A mouse model for the human lysosomal disease aspartylglycosaminuria

Abstract

Aspartylglycosaminuria (AGU), the most common disorder of glycoprotein degradation in humans, is caused by mutations in the gene encoding the lysosomal enzyme glycosylasparaginase (Aga)1. The resulting enzyme deficiency allows aspartylglucosamine (GlcNAc–Asn) and other glycoasparagines to accumulate in tissues and body fluids, from early fetal life onward1. The clinical course is characterized by normal early development, slowly progressing to severe mental and motor retardation in early adulthood2,3. The exact pathogenesis of AGU in humans is unknown and neither therapy nor an animal model for this debilitating and ultimately fatal disease exists. Through targeted disruption of the mouse Aga gene in embryonic stem cells, we generated mice that completely lack Aga activity. At the age of 5–10 months a massive accumulation of GlcNAc–Asn was detected along with lysosomal vacuolization, axonal swelling in the gracile nucleus and impaired neuromotor coordination. A significant number of older male mice had massively swollen bladders, which was not caused by obstruction, but most likely related to the impaired function of the nervous system. These findings are consistent with the pathogenesis of AGU and provide further data explaining the impaired neurological function in AGU patients.

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Kaartinen, V., Mononen, I., Voncken, J. et al. A mouse model for the human lysosomal disease aspartylglycosaminuria. Nat Med 2, 1375–1378 (1996). https://doi.org/10.1038/nm1296-1375

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