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Copper Toxicosis (ATP7B & ATP7A) Labrador Retriever Type - Research Only Overview

Copper Toxicosis (ATP7B & ATP7A) Labrador Retriever Type - Research Only
US$ 75.00 RRP
US$ 67.50 REGISTERED USER PRICE
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We have removed COTX as a ‘commercial’ test and can offer it as research only.  We have made this decision based on the general discussion about the test and the real unknown about the mode of inheritance and any real positive dogs (showing symptoms) ever been seen.  We are concerned that breeding decisions and hence restricting the gene pool may be caused by a COTX result when in fact we know very little about it.  we simply feel that more research and information needs to be done before this test is actually offered as a commercial test.  That said, we are happy to offer this test as ‘research only’. 

Category: Digestive system / Gastrointestinal - Associated with the organs and structures of the digestive system

Gene: ATPase copper transporting beta (ATP7B) on chromosome 22 ATPase copper transporting alpha (ATP7A) on chromosome X

Variant Detected: Base Substitution ATP7A: c.980C>T ATP7A: p.Thy327Ile ATP7B: c.4358G>A ATP7B: p.Arg1453Gln

Severity: Scale 3 has a moderate degree of severity, as it is not a fatal disease, though it can decrease the quality of life.

Mode of Inheritance: Complex - Mode Unknown

Test Overview: In Wilson disease, copper accumulates to toxic levels in tissues, causing neurological symptoms and liver disease. Diagnosis is challenging because symptoms can vary widely across patients, and the mechanisms underlying this clinical heterogeneity are unclear. Using a genome-wide approach in a new dog model for copper toxicosis, researchers have now revealed that mutations in a copper transporter gene, ATP7A, can ameliorate symptoms. This finding could pave the way for early detection and treatment of hereditary copper metabolism disorders. Genetic testing of the ATP7A gene in Labrador retrievers will reliably determine whether a dog is a genetic carrier of the copper toxicosis modifier (Labrador retriever type). The copper toxicosis modifier (Labrador retriever type) decreases the risk of excessive copper accumulation in an X-Linked incomplete dominant manner meaning that male dogs that are at risk for copper toxicosis due to inheritance of the associated mutation in the ATP7B gene only need to inherit one copy of the semi-protective ATP7A gene mutation to be at a decreased risk of disease. However, female dogs that are at risk for copper toxicosis due to inheritance of the associated ATP7B gene mutation and carriers of one copy of the semi-protective ATP7A mutation, may have a higher risk of developing copper toxicosis than male carriers due to the presence of another normal copy of the ATP7A gene in female dogs. Female dogs that inherit two copies of the ATP7A mutation are more protected than those that inherit only one copy of the ATP7A mutation. In addition, male dogs inheriting one copy of the ATP7A mutation tend to accumulate less copper when inherited with the ATP7B mutation than their female counterparts.

Research Citation(s): Fieten H, et al. The Menkes and Wilson disease genes counteract in copper toxicosis in Labrador retrievers: a new canine model for copper-metabolism disorders. (2016) Dis Model Mech, 9;25-38

Associated Breed(s): Labrador Retriever,