Keeping track to selenium metabolism

March 21st, 2012 in Chemistry / Analytical Chemistry
The technique allows for infinitesimal amounts of selenium to be quantified in their different chemical forms. Credit: J. Giner et al.


The technique allows for infinitesimal amounts of selenium to be quantified in their different chemical forms. Credit: J. Giner et al.

Spanish and Danish researchers have developed a method for the in vivo study of the unknown metabolism of selenium, an essential element for living beings. The technique can help clarify whether or not it possesses the anti-tumour properties that have been attributed to it and yet have not been verified through clinical trials.

"It is vox populi that doctors around the world recommend to complement traditional therapy against cancer and the but the truth is that the basics of these properties are not clear," explains to SINC Justo Giner, a chemist from the University of Oviedo (Spain).

"Even the general metabolism of selenium has not been completely cleared up," adds Giner who, along with other researchers at the same university and the University of of Copenhagen (Denmark), has developed a new methodology for discovering how this element moves around . The study has been published in the March issue of the 'Analytical and Bioanalytical Chemistry' journal.

The in vivo study was carried out on , which were administered a stable metabolic tracer of enriched selenium (77Se). According to the researcher, "it opens the door for transferring this method to clinical trials on humans given that innocuous, non-radioactive isotopes are used."

In line with expected findings, the results reveal that selenium concentrations in , blood and urine samples can indeed be analysed. Therefore, mass spectrometry techniques are employed along with a second isotopic tracer (74Se), which helps to quantify "with unequivocal precision" infinitesimal amounts of selenium in its different chemical forms that are distributed by the body.

Selenium is an antioxidant and plays an important role in the body's immune response. Understanding the path that it takes from the moment it is administered to when it is excreted could help to clarify its metabolism and its possible protecting effect against cancer and HIV.

The ideal dose of selenium

The main sources of selenium come from foods such as yeasts, animal products (meat, seafood, dairy products) and vegetables like broccoli, wheat-germ, nuts (especially Brazil nuts), oats, garlic and barley. The current recommended daily intake of selenium is approximately 55 micrograms for women and 70 micrograms for men.

Selenium deficiency is associated with different pathologies like endemic cardiomyopathy, cystic fibrosis, multiple sclerosis, rheumatoid arthritis, haemolysis and muscular dystrophy. Furthermore, thyroid metabolism is affected by selenium levels since the glands deiodinasa enzymes are in fact selenoproteins.

In contrast though, when intake is higher than nutritional requirements, selenium is considered a 'nutraceutical'. Mainly thanks to its antioxidant properties this means that it is beneficial for the health as long as it does not surpass the threshold in which it starts to become toxic.

More information: Kristoffer Lunøe, Justo Giner Martínez-Sierra, Bente Gammelgaard, J. Ignacio García Alonso. "Internal correction of spectral interferences and mass bias for selenium metabolism studies using enriched stable isotopes in combination with multiple linear regression". Analytical and Bioanalytical Chemistry 402 (9): 2749, March 2012. Doi: 10.1007/s00216-012-5747-7

Provided by FECYT - Spanish Foundation for Science and Technology

"Keeping track to selenium metabolism." March 21st, 2012. http://phys.org/news/2012-03-track-selenium-metabolism.html