Peer-reviewed veterinary case report
Weimaraner puppies with abnormal mirrored walking linked to EFNB3
By Schwarz, Cleo et al.Ā·Published in Movement disorders : official journal of the Movement Disorder SocietyĀ·2025Ā·Institute of GeneticsĀ·View original on PubMed ā
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Original publication title: EFNB3 Frameshift Variant in Weimaraner Dogs with a Condition Resembling a Congenital Mirror Movement Disorder.
- Species:
- dog
Plain-English summary
Three puppies from a litter of Weimaraner dogs were observed to have an unusual walking pattern, where their movements were synchronized, resembling a condition known as congenital mirror movement disorder (CMM). This genetic issue was traced back to a specific mutation in the EFNB3 gene, which plays a crucial role in nerve development. The condition is inherited in an autosomal recessive manner, meaning both parents must carry the gene for a puppy to be affected. While this disorder is similar to conditions seen in humans, it marks the first time it has been documented in dogs.
People also search for: Weimaraner puppy abnormal gait Ā· congenital mirror movement disorder in dogs Ā· EFNB3 gene mutation in dogs
Abstract
BACKGROUND: Congenital mirror movement disorders (CMMs) are clinically and genetically heterogeneous in human patients. CMMs have not been documented to occur spontaneously in animals. OBJECTIVE: The objective of this work was to document the first case of CMMs spontaneously occurring in Weimaraner dogs and to identify the underlying genetic cause. METHODS: Clinical and pathological investigations were performed. Genetic investigations used linkage and autozygosity mapping followed by whole-genome sequencing of 3 affected dogs and 1489 control dogs to identify disease-associated variants. RESULTS: Three of 11 puppies in a litter of Weimaraner dogs exhibited an abnormal gait characterized by synchronized saltatorial locomotion. Their phenotype was tentatively termed congenital mirror movement disorder 1 (CMM1). The underlying genetic cause was identified as a 2-bp duplication in EFNB3 encoding ephrin-B3, a transmembrane protein important for axon guidance and spinal midline barrier formation during neurodevelopment. The identified variant, XM_038536724.1:c.643_644dup, is predicted to lead to a frameshift and introduction of a premature stop codon XP_038392652.1:p.(Ala216Valfs*79). CMM1 is inherited as an autosomal recessive trait in these dogs. CONCLUSIONS: Similar to humans, CMMs may occur in dogs as an inherited disease as a result of a spontaneously arisen genetic variant. The CMM1 phenotype in dogs resembles the phenotype of experimentally induced Efnb3knockout mice. So far, no human patients with EFNB3-related CMMs have been reported. Our study provides the first naturally occurring large-animal model for CMMs. EFNB3 should be considered a candidate gene in human CMM patients with unclear disease etiology. © 2025 The Author(s). Movement Disorders published by Wiley Periodicals LLC on behalf of International Parkinson and Movement Disorder Society.
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Search related cases āOriginal publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/40401490/