Manganese levels increase in disease-ridden livestock

 

Sheep infected with the fatal disease scrapie and cows with bovine spongiform encephalopathy (BSE) contain elevated levels of manganese in their blood, found before any clinical symptoms appear.

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Findings published in the Journal of Animal Science also detail how scrapie-resistant sheep can produce higher levels of the metal when 'challenged' with the disease.

The University of Bath research suggests that elevated manganese levels in the blood stream and nervous system are caused by the animal’s initial response to the disease.

The findings raise the possibility of using manganese levels in the blood as a potential diagnostic marker for prion infection; however, only post-mortem examination of the brain tissue gives a certain diagnosis.

Scrapie, BSE (also known as mad cow disease) and Creutzfeldt-Jakob Disease (CJD) are neurodegenerative illnesses that affect the brain and nervous system of sheep, cows and humans respectively.

They are transmitted by malformed prion proteins which cause tiny loss of brain cell in different regions of the brain, leading to impairment of brain function, including memory changes, personality changes and problems with movement that worsen over time.

"Definite diagnosis of prion disease is currently only possible post-mortem," said Professor David Brown from the University of Bath, who led the study with colleagues from the universities of Hull and Edinburgh.

"These findings suggest that elevated blood manganese could be used as a robust diagnostic marker for prion infection, even before the onset of apparent clinical disease.

"In practice, however, it would be difficult implement a widespread screening programme, given that the mass spectrometry we use to measure levels is expensive and labour-intensive."

First such study of farm animal tissue

The research, following a 2002 study showing that mice with scrapie had high levels of manganese, is the first time that tissue from farm animals infected with prion diseases have been studied in this way.

One of the most interesting findings from this study came from the analysis of blood samples from scrapie-resistant sheep.

When challenged with the disease, these sheep showed similar levels of manganese as non-resistant sheep challenged in the same way.

"Elevated levels of manganese in scrapie-resistant sheep imply that the change in blood manganese is a result of the scrapie challenge and not a consequence of scrapie pathology," said Professor Brown, from the University of Bath’s Department of Biology and Biochemistry.

"Although these sheep are considered to be resistant to scrapie, they do show some indications that scrapie challenge results in similar metabolic changes as occur in non-resistant sheep."

A further finding showed that although levels of manganese were elevated, there were differences in the blood levels of selenium and molybdenum in experimental and field cases of BSE in cows.

This suggests that the way a cow acquires the disease affects the metabolic processes involved.

"The origin of the increased manganese in the brains and blood of infected animals remains unknown," said Professor Brown.

"The three possibilities are that there is decreased secretion of manganese from the body, release of manganese from other tissues or increased absorption of manganese from the environment.

"Currently, there is insufficient evidence to favour any of these three theories."

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