Tamoxifen drug used in the treatment of breast cancer could prevent obesity, fatty liver and insulin resistance, finds study.
Tamoxifen drug for the treatment of estrogen-receptor positive breast cancer was also found to have metabolic effects. A recent study from The American Journal of Pathology revealed tamoxifen drug was capable of preventing obesity, fatty liver and insulin resistance in female mice that were fed with a high-fat diet and ovaries being removed.// The research study was able to show which estrogen receptors underlie protective effects, thereby opening up opportunities for treating these conditions.
"For the past two decades, estrogen receptor α (ERα) has been identified as a key regulator of energy and glucose homeostasis and consequently proposed as a promising target to develop new therapeutic strategies to fight against obesity-related metabolic disorders, such as type 2 diabetes and nonalcoholic fatty liver disease.
However, understanding the mechanisms of the metabolic protection conferred by ERα activation has been a crucial challenge," explained Pierre Gourdy, MD, PhD, INSERM UMR1048, Institut des Maladies Métaboliques et Cardiovasculaires, Université de Toulouse (France).
Mice whose ovaries had been removed were fed a high-fat diet and treated with either tamoxifen or a placebo for 12 weeks. Investigators found that tamoxifen prevented weight gain, which was attributed to a significant reduction in food intake compared with controls. Tamoxifen-treated mice were less likely to develop glucose intolerance, insulin resistance, as well as deposits of fat in the liver.
The researchers knew that ERα exerts its effects through two activation functions known as ERα-AF1 and ERα-AF2, directly involved in the transcriptional regulation of gene expression. Tamoxifen acts as an ERα-AF1 agonist or an ERα-AF2 antagonist according to its tissue/organ targets.
To better understand the molecular mechanisms underlying tamoxifen's metabolic effects, the scientists treated mice genetically bred to be deficient either for the entire ER-α (ERα-/-) or just ERα-AF1 (AF1-/-°) with either tamoxifen or placebo and compared the results to wild-type mice (ERα+/+ or AF1+/+) that underwent similar treatment. All the mice were fed a high-fat diet.
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In addition, the researchers found that selective activation of ERα-AF1 by tamoxifen also regulated most hepatic metabolic genes.
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It also opens new perspectives for the treatment of obesity-related complications toward a pharmacologic strategy eliciting selective ERα-AF1 activation," noted Dr. Gourdy.
Source-Eurekalert