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Genes linked to syringomyelia and Chiari-like malformation

By Ancot, Frédéric et al.·Published in BMC genetics·2018·Department of Neurosciences, Canada·View original on PubMed

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Original publication title: A genome-wide association study identifies candidate loci associated to syringomyelia secondary to Chiari-like malformation in Cavalier King Charles Spaniels.

Species:
dog
Brain & nervesDogs

Plain-English summary

A group of Cavalier King Charles Spaniels was studied to understand syringomyelia (SM), a condition where fluid-filled cavities form in the spinal cord, often linked to a skull malformation called Chiari-like malformation (CM). Researchers found two specific areas in the dogs' genes that are associated with the development of SM. These genetic markers could help identify which dogs are at risk for this painful condition. Understanding these genetic factors may lead to better prevention and treatment options for affected dogs in the future.

People also search for: Cavalier King Charles Spaniel syringomyelia symptoms · Chiari-like malformation in dogs · genetic testing for dog spinal conditions

Abstract

BACKGROUND: Syringomyelia (SM) is a common condition affecting brachycephalic toy breed dogs and is characterized by the development of fluid-filled cavities within the spinal cord. It is often concurrent with a complex developmental malformation of the skull and craniocervical vertebrae called Chiari-like malformation (CM) characterized by a conformational change and overcrowding of the brain and cervical spinal cord particularly at the craniocervical junction. CM and SM have a polygenic mode of inheritance with variable penetrance. RESULTS: We identified six cranial T1-weighted sagittal MRI measurements that were associated to maximum transverse diameter of the syrinx cavity. Increased syrinx transverse diameter has been correlated previously with increased likelihood of behavioral signs of pain. We next conducted a whole genome association study of these traits in 65 Cavalier King Charles Spaniel (CKCS) dogs (33 controls, 32 with extreme phenotypes). Two loci on CFA22 and CFA26 were found to be significantly associated to two traits associated with a reduced volume and altered orientation of the caudal cranial fossa. Their reconstructed haplotypes defined two associated regions that harbor only two genes: PCDH17 on CFA22 and ZWINT on CFA26. PCDH17 codes for a cell adhesion molecule expressed specifically in the brain and spinal cord. ZWINT plays a role in chromosome segregation and its expression is increased with the onset of neuropathic pain. Targeted genomic sequencing of these regions identified respectively 37 and 339 SNPs with significantly associated P values. Genotyping of tagSNPs selected from these 2 candidate loci in an extended cohort of 461 CKCS (187 unaffected, 274 SM affected) identified 2 SNPs on CFA22 that were significantly associated to SM strengthening the candidacy of this locus in SM development. CONCLUSIONS: We identified 2 loci on CFA22 and CFA26 that contained only 2 genes, PCDH17 and ZWINT, significantly associated to two traits associated with syrinx transverse diameter. The locus on CFA22 was significantly associated to SM secondary to CM in the CKCS dog breed strengthening its candidacy for this disease. This study will provide an entry point for identification of the genetic factors predisposing to this condition and its underlying pathogenic mechanisms.

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Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/29566674/