Tekort aan selenium geeft hogere kans op kanker.*
Uit een Amerikaanse studie met muizen blijkt nog eens dat voldoende selenium in de voeding belangrijk is ter voorkoming van verschillende kankers zoals long-, colorectale en prostaatkanker. Voldoende selenium bevordert in het lichaam de aanmaak van de verschillende selenoproteïnes. Een tekort aan deze proteïnes bevordert het ontstaan van kanker. Er zijn tenminste 25 verschillende selenoproteïnes in het menselijke lichaam bekend. Welke rol ieder proteïne hierin speelt lijkt nog onbekend doch een proteïne lijkt het meest interessant volgens de onderzoeker Prof. Diamond en wel glutathion. Daarvoor gaan ze verder met het onderzoek om speciaal dit proteïne en de beschermende rol te onderzoeken.
Selenium-protein
Deficiency Raises Prostate Cancer Risk
Selenium,
an essential dietary mineral that can act as an antioxidant when incorporated
into proteins, has been shown in many studies to reduce the incidence of cancers
-- notably lung, colorectal and prostate.
"The problem is, nobody seems to know how the mechanism works, and that's
not trivial," said Alan Diamond, professor of human nutrition at the
University of Illinois at Chicago and principal investigator in an ongoing
multidisciplinary study set up at UIC to help answer that question.
"Knowing how it works allows you to maximize-out its benefits," he
said. Diamond and his colleagues report in the issue of the Proceedings of the
National Academy of Sciences on research findings using specially bred
transgenic mice that suggest it is the level of selenium-containing proteins in
the body that is instrumental in preventing cancer, and that dietary selenium
plays a role in stimulating the body's level of these selenoproteins.
Two genetically manipulated mice were mated. One was prone to developing
prostate cancer. The other had lower levels of selenoproteins. Approximately 50
offspring that carried both traits were studied to see if the reduced levels of
selenoproteins accelerated cancer development. As the researchers suspected, it
did.
"It's a hardcore link in an animal model system of selenium-containing
proteins to prostate cancer and, by extrapolation, the mechanism by which
selenium prevents cancer," said Diamond.
Further research is underway to corroborate the stimulating effect of dietary
selenium in enhancing levels of protective selenoproteins. Diamond added that
much work remains to be done to discover exactly how selenoproteins play their
protective role, and in whom.
At least 25 different selenoproteins have been found in the human body. But what
role each plays is not known, nor is it known if certain persons are genetically
more -- or less -- receptive to the benefits of these proteins, or to a selenium
supplement, Diamond said.
The effectiveness of selenium may be due to its effects on a single
selenoprotein, or combinations of several members of this class. One
selenoprotein in particular, glutathione peroxidase, is of special interest to
Diamond and his associates. They plan to run new tests using new mice
genetically modified to reduce levels of just this one selenoprotein. "If
reductions result in accelerated prostate cancer, then we have our player,"
he said. Other UIC faculty participating in the study include Veda
Diwadkar-Navsariwala, post-doctoral researcher in human nutrition; Gain Prins,
professor of urology; Steven Swanson, associate professor of medicinal chemistry
and pharmacognosy; Lynn Birch, research specialist in urology; Vera Ray,
clinical assistant professor of pathology; Sadam Hedayat, distinguished
professor of statistics; and Daniel Lantvit, research specialist in
pharmaceutical sciences.
Paul Francuch
francuch@uic.edu
University of Illinois at Chicago
(Juni 2006)