[Follow-up study in German Hunting Terrier dogs with exercise induced metabolic myopathy]. / Verlaufsuntersuchungen bei Deutschen Jagdterriern mit belastungsabhängiger metabolischer Myopathie.

OBJECTIVE: Exercise induced metabolic myopathy in German Hunting Terrier dogs is an autosomal-recessively inherited disorder, caused by a nonsense variant of the gene encoding for the very long-chain acyl-CoA-dehydrogenase (VLCAD) enzyme. Clinical signs include exercise- induced fatigue, muscle pain and weakness. In the present study, the long-term course of this disease was investigated over a period of 1 year in 9 affected German Hunting Terriers. The dogs were treated symptomatically with oral L-carnitine, coenzyme Q10 and a special diet characterized by a low content of long-chain fatty acids and a high proportion of carbohydrates. MATERIAL AND METHODS: In 9 affected dogs, the phenotype as well as clinical, laboratory parameters, and histopathological findings are described (time point 1) and compared to follow-up examinations 1 year later (time point 2). At both time points clinical and neurological examinations, complete blood cell count, clinical chemistry profile and the concentration of brain natriuretic peptide (NT-proBNP) were investigated. RESULTS: In the follow-up examinations, the same post-exercise clinical signs were present as in the initial presentation of the homozygous dogs. Dark-brownish discoloration of the urine, weakness, myalgia as well as stiff and tetraparetic gait were apparant. All hematological values and the concentration of NT-proBNP were within the relevant reference ranges. Plasma CK and ALT activities were compared between the first presentation and the follow- up examination and no significant differences were detected (pCK = 0.31, pALT = 0.64). Signs of myopathy remained unchanged throughout the examination period. CONCLUSION AND CLINICAL RELEVANCE: Oral supplementation with L-carnitine, coenzyme Q10 and the special dietary management did not result in any improvement of clinical signs or laboratory parameters. No progression of the disease was observed. The prognosis for affected dogs remains cautious as long-term observations of affected dogs over several years are lacking. Our findings provide further important information on inherited disorders of mitochondrial ß-oxidation in dogs, especially focused on the exercise induced metabolic myopathy in the German Hunting Terrier. This may provide new insights for novel treatment modalities in conjuntion with the development of improved breeding guidelines.

A SIX6 Nonsense Variant in Golden Retrievers with Congenital Eye Malformations.

Causative genetic variants for more than 30 heritable eye disorders in dogs have been reported. For other clinically described eye disorders, the genetic cause is still unclear. We investigated four Golden Retriever litters segregating for highly variable congenital eye malformations. Several affected puppies had unilateral or bilateral retina dysplasia and/or optic nerve hypoplasia. The four litters shared the same father or grandfather suggesting a heritable condition with an autosomal dominant mode of inheritance. The genome of one affected dog was sequenced and compared to 601 control genomes. A heterozygous private nonsense variant, c.487C>T, was found in the SIX6 gene. This variant is predicted to truncate about a third of the open reading frame, p.(Gln163*). We genotyped all available family members and 464 unrelated Golden Retrievers. All three available cases were heterozygous. Five additional close relatives including the common sire were also heterozygous, but did not show any obvious eye phenotypes. The variant was absent from the 464 unrelated Golden Retrievers and 17 non-affected siblings of the cases. The SIX6 protein is a homeobox transcription factor with a known role in eye development. In humans and other species, SIX6 loss of function variants were reported to cause congenital eye malformations. This strongly suggests that the c.487C>T variant detected contributed to the observed eye malformations. We hypothesize that the residual amount of functional SIX6 protein likely to be expressed in heterozygous dogs is sufficient to explain the observed incomplete penetrance and the varying severity of the eye defects in the affected dogs.

A Nonsense Variant in the ACADVL Gene in German Hunting Terriers with Exercise Induced Metabolic Myopathy.

Several enzymes are involved in fatty acid oxidation, which is a key process in mitochondrial energy production. Inherited defects affecting any step of fatty acid oxidation can result in clinical disease. We present here an extended family of German Hunting Terriers with 10 dogs affected by clinical signs of exercise induced weakness, muscle pain, and suspected rhabdomyolysis. The combination of clinical signs, muscle histopathology and acylcarnitine analysis with an elevated tetradecenoylcarnitine (C14:1) peak suggested a possible diagnosis of acyl-CoA dehydrogenase very long chain deficiency (ACADVLD). Whole genome sequence analysis of one affected dog and 191 controls revealed a nonsense variant in the ACADVL gene encoding acyl-CoA dehydrogenase very long chain, c.1728C>A or p.(Tyr576*). The variant showed perfect association with the phenotype in the 10 affected and more than 500 control dogs of various breeds. Pathogenic variants in the ACADVL gene have been reported in humans with similar myopathic phenotypes. We therefore considered the detected variant to be the most likely candidate causative variant for the observed exercise induced myopathy. To our knowledge, this is the first description of this disease in dogs, which we propose to name exercise induced metabolic myopathy (EIMM), and the identification of the first canine pathogenic ACADVL variant. Our findings provide a large animal model for a known human disease and will enable genetic testing to avoid the unintentional breeding of affected offspring.