Peer-reviewed veterinary case report
Muscle enzyme deficiency from PFKM mutation in Wachtelhund dogs
By Inal Gultekin, G et al.·Published in Molecular and cellular probes·2012·University of Pennsylvania, United States·View original on PubMed →
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Original publication title: Missense mutation in PFKM associated with muscle-type phosphofructokinase deficiency in the Wachtelhund dog.
- Species:
- dog
Plain-English summary
A group of Wachtelhund dogs was found to have a genetic mutation causing muscle-type phosphofructokinase (PFK) deficiency, which can lead to symptoms like anemia and muscle weakness during exercise. Researchers identified a specific change in the PFKM gene that affects how the body processes energy in muscles. This mutation was present in all four affected dogs, and tests can now be done to identify carriers and healthy dogs to help manage this condition. Understanding this genetic issue allows for better screening and control of the trait in Wachtelhunds.
People also search for: Wachtelhund muscle weakness · dog anemia symptoms · PFK deficiency in dogs · genetic testing for dogs
Abstract
Hereditary muscle-type phosphofructokinase (PFK) deficiency causing intermittent hemolytic anemia and exertional myopathy due to a single nonsense mutation in PFKM has been previously described in English Springer and American Cocker Spaniels, Whippets, and mixed breed dogs. We report here on a new missense mutation associated with PFK deficiency in Wachtelhunds. Coding regions of the PFKM gene were amplified from genomic DNA and/or cDNA reverse-transcribed from RNA of EDTA blood of PFK-deficient and clinically healthy Wachtelhunds and control dogs. The amplicons were sequenced and compared to the published canine PFKM sequence. A point mutation (c.550C>T, in the coding sequence of PFKM expressed in blood) was found in all 4 affected Wachtelhunds. This missense mutation results in an amino acid substitution of arginine (Arg) to tryptophan (Trp) at position 184 of the protein expressed in blood (p.Arg184Trp). The mutation is located within an alpha-helix, and based on the SIFT analysis, this amino acid substitution is not tolerated. Amplifying the region around this mutation and digesting the PCR fragment with the restriction enzyme MspI, produces fragments that readily differentiate between PFK-deficient, carrier, and normal animals. Furthermore, we document 2 additional upstream PFKM exons expressed in canine testis but not in blood. Despite their similar phenotypic appearance and use for hunting, Wachtelhunds and English Springer Spaniels are not thought to have common ancestors. Thus, it is not surprising that different mutations are responsible for PFK deficiency in these breeds. Knowledge of the molecular basis of PFK deficiency in Wachtelhunds provides an opportunity to screen and control the spread of this deleterious trait.
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Search related cases →Original publication on PubMed: https://pubmed.ncbi.nlm.nih.gov/22446493/