Peer-reviewed veterinary case report
Gene therapy effects on brain lipids in cats with GM1 disease
By Heather L. Gray-Edwards et al.·Published in Molecular Therapy: Methods & Clinical Development·2017·Scott-Ritchey Research Center, Auburn University College of Veterinary Medicine, Auburn, AL 36849, USA, US·View original on DOAJ →
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Original publication title: Lipidomic Evaluation of Feline Neurologic Disease after AAV Gene Therapy
- Species:
- cat
Plain-English summary
A group of cats with a serious genetic disorder called GM1 gangliosidosis, which affects the nervous system, received a new gene therapy treatment. This therapy significantly increased their lifespan, with many living over 5 years with few symptoms. Researchers analyzed the cats' cerebrospinal fluid to understand the disease better and found that certain lipid levels could predict how the disease progressed. The study showed that the gene therapy was effective in correcting some of the lipid imbalances caused by the disorder.
People also search for: cat GM1 gangliosidosis treatment · feline gene therapy · cat neurological disease symptoms
Abstract
GM1 gangliosidosis is a fatal lysosomal disorder, for which there is no effective treatment. Adeno-associated virus (AAV) gene therapy in GM1 cats has resulted in a greater than 6-fold increase in lifespan, with many cats remaining alive at >5.7 years of age, with minimal clinical signs. Glycolipids are the principal storage product in GM1 gangliosidosis whose pathogenic mechanism is not completely understood. Targeted lipidomics analysis was performed to better define disease mechanisms and identify markers of disease progression for upcoming clinical trials in humans. 36 sphingolipids and subspecies associated with ganglioside biosynthesis were tested in the cerebrospinal fluid of untreated GM1 cats at a humane endpoint (∼8 months), AAV-treated GM1 cats (∼5 years old), and normal adult controls. In untreated GM1 cats, significant alterations were noted in 16 sphingolipid species, including gangliosides (GM1 and GM3), lactosylceramides, ceramides, sphingomyelins, monohexosylceramides, and sulfatides. Variable degrees of correction in many lipid metabolites reflected the efficacy of AAV gene therapy. Sphingolipid levels were highly predictive of neurologic disease progression, with 11 metabolites having a coefficient of determination (R2) > 0.75. Also, a specific detergent additive significantly increased the recovery of certain lipid species in cerebrospinal fluid samples. This report demonstrates the methodology and utility of targeted lipidomics to examine the pathophysiology of lipid storage disorders.
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Search related cases →Original publication on DOAJ: https://doi.org/10.1016/j.omtm.2017.07.005