Peer-reviewed veterinary case report
GM2 gangliosidosis in Japanese Chin dogs linked to HEXA gene mutation
By Sanders, Douglas N et al.·Published in Molecular genetics and metabolism·2013·Mason Eye Institute, United States·View original on PubMed →
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Original publication title: GM2 gangliosidosis associated with a HEXA missense mutation in Japanese Chin dogs: a potential model for Tay Sachs disease.
- Species:
- dog
Plain-English summary
Two related Japanese Chin dogs were diagnosed with GM2 gangliosidosis, a serious genetic condition that affects the brain and is similar to Tay Sachs disease in humans. The dogs showed clinical signs of the disease, and tests revealed high levels of GM2 gangliosides in their brains. Genetic testing identified a specific mutation in the HEXA gene that is likely causing the problem. Unfortunately, this condition is fatal, and there is currently no cure, so affected dogs typically do not recover.
People also search for: Japanese Chin GM2 gangliosidosis symptoms · dog genetic disease HEXA mutation · Tay Sachs disease in dogs
Abstract
GM2 gangliosidosis is a fatal lysosomal storage disease caused by a deficiency of β-hexosaminidase (EC 3.2.1.52). There are two major isoforms of the enzyme: hexosaminidase A composed of an α and a β subunit (encoded by HEXA and HEXB genes, respectively); and, hexosaminidase B composed of two β subunits. Hexosaminidase A requires an activator protein encoded by GM2A to catabolize GM2 ganglioside, but even in the absence of the activator protein, it can hydrolyze the synthetic substrates commonly used to assess enzyme activity. GM2 gangliosidosis has been reported in Japanese Chin dogs, and we identified the disease in two related Japanese Chin dogs based on clinical signs, histopathology and elevated brain GM2 gangliosides. As in previous reports, we found normal or elevated hexosaminidase activity when measured with the synthetic substrates. This suggested that the canine disease is analogous to human AB variant of G(M2) gangliosidosis, which results from mutations in GM2A. However, only common neutral single nucleotide polymorphisms were found upon sequence analysis of the canine ortholog of GM2A from the affected Japanese Chins. When the same DNA samples were used to sequence HEXA, we identified a homozygous HEXA:c967G>A transition which predicts a p.E323K substitution. The glutamyl moiety at 323 is known to make an essential contribution to the active site of hexosaminidase A, and none of the 128 normal Japanese Chins and 92 normal dogs of other breeds that we tested was homozygous for HEXA:c967A. Thus it appears that the HEXA:c967G>A transition is responsible for the GM2 gangliosidosis in Japanese Chins.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/23266199/