Peer-reviewed veterinary case report
Young Bengal kitten seizures caused by CAD gene deficiency
By Kaczmarska, Adriana et al.·Published in Scientific reports·2025·School of Biodiversity, United Kingdom·View original on PubMed →
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Original publication title: Epileptic encephalopathy in a young Bengal cat caused by CAD deficiency.
- Species:
- cat
Plain-English summary
A 4-month-old Bengal kitten was brought to the vet due to frequent seizures and unusual behavior. Tests revealed a genetic issue affecting a key enzyme involved in brain function, which is linked to severe epilepsy. The good news is that uridine supplementation, a treatment that helps support brain health, could potentially help these kittens. This case highlights the importance of genetic testing for affected and carrier cats, and it opens up new avenues for understanding and treating similar conditions in both cats and humans.
People also search for: Bengal kitten seizures · uridine treatment for cat epilepsy · genetic testing for cat seizures
Abstract
Developmental and epileptic encephalopathy type 50 (DEE50) in humans is a severe early-onset neurometabolic disorder caused by biallelic loss-of-function variants in the CAD gene encoding a key multi-enzymatic protein for de novo pyrimidine nucleotide synthesis. Untreated, the condition is often fatal, but patients respond to uridine supplementation, which fuels nucleotide synthesis through CAD-independent salvage pathways. Here, we report a novel variant in the feline CAD gene in a 4-month-old Bengal kitten with intractable seizures and abnormal behavior. The variant, XP_011279586.1:p.(Ser2015Asn), was predicted to affect the oligomerization of the C-terminal aspartate transcarbamylase (ATCase) domain of CAD. Genotyping of 110 unaffected Bengal cats revealed four additional carriers of the mutant allele, confirming its presence in the breed. In a CAD-knockout human cell line dependent on uridine, the recombinant expression of human wildtype CAD, but not of the Asn2015 mutant, restored cell growth without uridine, demonstrating that the p.Ser2015Asn variant disrupts CAD function and is pathogenic. This study facilitates genetic testing of carriers and affected cats and suggests that uridine supplementation could be a potential treatment. Furthermore, CAD-deficient Bengal cats might serve as a valuable spontaneous large animal model to further investigate the pathogenic mechanisms of this rare epileptic encephalopathy in humans.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/40251393/