at the CNIO

Tag: central nervous system

A combination of a dopamine receptor 2 agonist and a kappa opioid receptor antagonist synergistically reduces weight in diet-induced obese rodents

Beatriz Cicuéndez, Javier Pérez-García & Cintia Folgueira.

As the global obesity rate increases, so does the urgency to find effective anti-obesity drugs. In the search for therapeutic targets, central nervous system (CNS) mechanisms engaged in the regulation of energy expenditure and food intake, such as the opioid and dopamine systems, are crucial.

Increased temperature in a mouse treated with BC and PF-04455242 (Image: Cintia Folgueira).

In this study, we examined the effect on body weight of two drugs: bromocriptine (BC), a D2R receptor agonist, and PF-04455242, a selective κ opioid receptor (KOR) antagonist. Using diet-induced obese (DIO) rats, we aimed to ascertain whether the administration of BC and PF-04455242, independently or in combination, could enhance body weight loss. Furthermore, the present work demonstrates that the peripheral coadministration of BC and PF-04455242 enhances the reduction of weight in DIO rats and leads to a decrease in adiposity in a food-intake-independent manner. These effects were based on heightened energy expenditure, particularly through the activation of brown adipose tissue (BAT) thermogenesis.

Overall, our findings indicate that the combination of BC and PF-04455242 effectively induces body weight loss through increased energy expenditure by increasing thermogenic activity and highlight the importance of the combined use of drugs to combat obesity.

Organ crosstalk in energy balance and metabolic disease (8-11 April 2018)

We are organizing an EMBO Workshop to provide the most important and up-to-date research in the field of metabolism. The workshop will focus on understanding the recent progress in adipocyte biology (cell fate and browning), liver metabolism including steatosis and the role of the central nervous system in the control of the energy homeostasis. Special emphasis will be done to highlight the importance of the organ crosstalk and how signalling pathways in one tissue could affect the metabolism in other tissue.

The goals of this EMBO Workshop are to provide important new insights into the primary pathogenesis of these disorders, and especially focus on those that might lead to new therapies.

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