28.04.2013 - Swiss scientists have shown for the first time that brown and white fat cells in a living organism can be converted from one cell type to the other.
Using mice as model organisms, the research of the team under Christian Wolfrum from ETH Zurich provides a new approach for anti-obesity therapies. For the first time they demonstrated that energy storing white fat cells can be switched to energy-burning brown fat cells.
For their investigations, Wolfrum et al. made use of the observaton that both humans and mice can adapt to cold temperatures by forming brown fat cells within their white fat depots. These so-called "brite" fat cells (brown-in-white) are less common at warmer than at colder temperatures. To demonstrate whether brite fat cells are formed from white fat cells or other precursors the researchers generated mice with genetically labeled specific fat cells. Exposing them to the cold, the mice formed brite fat cells. After warm adaptation the fat tissue turned white again. The experiments proove that white fat cells can convert into brown fat cells and vice versa. As humans have the same type of cells as mice it is likely that the same process occurs in humans upon cold stimulation.
The researchers now want to find pharmaceutical or nutritional triggers to convert the cells. According to Wolfrum, this would change the current paradigm of obesity treatment. "Current anti-obesity therapies target the energy intake side of the equation by controlling appetite and the uptake of nutrients", says Wolfrum. The pharmacological treatments that are available are not very efficient and usually are associated with side effects. In contrast, this novel approach to treat obesity would target the energy expenditure side of the equation by promoting brown fat formation.
17.04.2014 The European Parliament has given green light to the second Innovative Medicines Initiative with the aim to advance pharmacological research and development, particularly in areas of unmet medical need.
11.04.2014 There is no evidence that neuraminidase inhibitors Tamiflu and Relenza prevent complications of influenza or reduce hospital admissions. In addition, it is unclear whether they can stop the spread of influenza in case of outbreaks, says a report by the Cochrane Collaboration.
09.04.2014 Roche is extending its involvement in the area of point-of-care diagnostics by taking over US company Iquum. In the field of epigenetics, the Swiss pharma company has started a cooperation with the Spanish company Oryzon.
08.04.2014 The Swiss Biotech Report 2014 presented in Zurich sees an encouraging upturn in the country's biotech scene. However, the acceptance of the mass immigration initiative poses a significant threat.
The LiposoFast-Basic produces unilamellar liposomes by the manual extrusion of a multilamellar liposome suspension through a polycarbonate membrane of defined pore size, using gas-tight, glass syringes. more