rhodanine and Hepatolenticular-Degeneration

This preliminary study summarizes the genotypes of 42 Labrador Retrievers and Labrador Retriever-Golden Retriever crosses and phenotypes a subset of ten of these dogs that are homozygous mutant, heterozygous, or homozygous normal for mutations in the ATP7A and ATP7B genes that have been associated with the development of copper toxicosis in Labrador Retrievers. The purpose of this study is to evaluate whether there is a correlation between ATP7A and ATP7B genotypes and clinical evidence of hepatic pathology in young, asymptomatic Labrador Retrievers. We evaluated serum ALT levels, hepatic copper concentrations, and hepatic histopathology from ten offspring where both parents had a least one copy of the ATP7B mutation. Five were homozygous mutant, four were heterozygous, and one was homozygous normal for comparison. None had increased serum ALT activity. All dogs homozygous for the ATP7B mutation had elevated hepatic copper concentrations compared to dogs heterozygous for the ATP7B mutation regardless of sex or presence of an ATP7A mutation with the mean hepatic copper concentration being 1464 ppm (reference range 100-330 ppm). Mean hepatic copper concentration in homozygous normal and heterozygous dogs was 328 ppm. In this preliminary analysis, we found that dogs that carry two copies of the ATP7B mutation have abnormally elevated hepatic copper levels despite having normal serum ALT activity. Our findings support the hypothesis that the ATP7B DNA test can predict defects in hepatic copper metabolism. Veterinarians can test for the ATP7B gene mutation to identify Labrador Retrievers at risk for copper toxicosis so that they can take steps to prevent development of copper-associated chronic hepatitis in their patients.

Topics: Alanine Transaminase; Animals; Copper; Copper-Transporting ATPases; Dog Diseases; Dogs; Female; Genetic Predisposition to Disease; Genotype; Hepatolenticular Degeneration; Humans; Liver Cirrhosis; Male; Metal Metabolism, Inborn Errors; Rhodanine

The influence of rhodanine and haematoxylin and eosin (HE) staining on the copper distribution and concentration in liver needle biopsy samples originating from patients with Wilson's disease (WD), a rare autosomal recessive inherited disorder of the copper metabolism, is investigated. In contemporary diagnostic of WD, rhodanine staining is used for histopathology, since rhodanine and copper are forming a red to orange-red complex, which can be recognized in the liver tissue using a microscope. In this paper, a laser ablation-inductively coupled plasma-mass spectrometry (LA-ICP-MS) method is applied for the analysis of eight different WD liver samples. Apart from a spatially resolved elemental detection as qualitative information, this LA-ICP-MS method offers also quantitative information by external calibration with matrix-matched gelatine standards. The sample set of this work included an unstained and a rhodanine stained section of each WD liver sample. While unstained sections of WD liver samples showed very distinct structures of the copper distribution with high copper concentrations, rhodanine stained sections revealed a blurred copper distribution with significant decreased concentrations in a range from 20 to more than 90%. This implies a copper removal from the liver tissue by complexation during the rhodanine staining. In contrast to this, a further HE stained sample of one WD liver sample did not show a significant decrease in the copper concentration and influence on the copper distribution in comparison to the unstained section. Therefore, HE staining can be combined with the analysis by means of LA-ICP-MS in two successive steps from one thin section of a biopsy specimen. This allows further information to be gained on the elemental distribution by LA-ICP-MS additional to results obtained by histological staining.

Topics: Calibration; Copper; Gelatin; Hepatolenticular Degeneration; Humans; Lasers; Liver; Mass Spectrometry; Plasma Gases; Reference Standards; Rhodanine; Staining and Labeling

Topics: Diagnostic Errors; Hepatolenticular Degeneration; Humans; Rhodanine