Peer-reviewed veterinary case report
Startle disease causing muscle stiffness in Irish wolfhound puppies
By Gill, Jennifer L et al.·Published in Neurobiology of disease·2011·Department of Pharmacology, United Kingdom·View original on PubMed →
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Original publication title: Startle disease in Irish wolfhounds associated with a microdeletion in the glycine transporter GlyT2 gene.
- Species:
- dog
Plain-English summary
Two Irish wolfhound puppies from the same litter were brought in for muscle stiffness and tremors when handled, which are signs of a condition known as startle disease. Genetic testing revealed that the puppies had a specific deletion in the glycine transporter gene, which is linked to their symptoms. Their parents and three siblings were found to be carriers of this genetic change, indicating that the condition is inherited in a recessive manner. This discovery not only helps in understanding the disorder but also aids in developing better breeding practices and potential treatments for affected dogs.
People also search for: Irish wolfhound startle disease symptoms · puppy muscle stiffness treatment · genetic testing for dog disorders
Abstract
Defects in glycinergic synaptic transmission in humans, cattle, and rodents result in an exaggerated startle reflex and hypertonia in response to either acoustic or tactile stimuli. Molecular genetic studies have determined that mutations in the genes encoding the postsynaptic glycine receptor (GlyR) α1 and β subunits (GLRA1 and GLRB) and the presynaptic glycine transporter GlyT2 (SLC6A5) are the major cause of these disorders. Here, we report the first genetically confirmed canine cases of startle disease. A litter of seven Irish wolfhounds was identified in which two puppies developed muscle stiffness and tremor in response to handling. Although sequencing of GLRA1 and GLRB did not reveal any pathogenic mutations, analysis of SLC6A5 revealed a homozygous 4.2kb microdeletion encompassing exons 2 and 3 in both affected animals. This results in the loss of part of the large cytoplasmic N-terminus and all subsequent transmembrane domains due to a frameshift. This genetic lesion was confirmed by defining the deletion breakpoint, Southern blotting, and multiplex ligation-dependent probe amplification (MLPA). This analysis enabled the development of a rapid genotyping test that revealed heterozygosity for the deletion in the dam and sire and three other siblings, confirming recessive inheritance. Wider testing of related animals has identified a total of 13 carriers of the SLC6A5 deletion as well as non-carrier animals. These findings will inform future breeding strategies and enable a rational pharmacotherapy of this new canine disorder.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/21420493/