Molecular Switch Generates Calorie-burning Brown Fat

Highlights •CK2 is preferentially activated in white fat by norepinephrine and under obesity •CK2 inhibition in white fat activates thermogenesis in response to cAMP stimuli •CK2 inhibition increases UCP1-dependent energy expenditure in vivo •CK2 inhibition ameliorates diet-induced obesity and insulin resistance

Drugs that flip this switch rapidly reduced obesity and diabetes risk factors in mice fed a high fat diet. The results suggest that drugs capable of targeting similar molecular pathways in human fat cells could one day become major tools for fighting the growing worldwide epidemics of obesity and type 2 diabetes.

All mammals, including humans, have two types of fat with completely opposite functions: white, which stores energy and is linked with diabetes and obesity; and brown, which produces heat by burning energy and is associated with leanness. Human babies are born with brown fat as a natural defense against cold. Hibernating animals such as bears build up large stores of brown fat for the same reason.

Many obesity researchers hope to harness the energy-burning capacity of brown fat to help patients lose weight: just 2 ounces of the stuff can burn up to 200 cals/day when the temp drops. But drugs that simply activate existing brown fat have proven ineffective in early trials because most people who are obese lack a significant amount of active brown fat. Early drugs also had dangerous cardiovascular side effects, which are of particular concern in obese patients.

Researchers discover a protein that tells white fat to hoard calories. In a major breakthrough earlier this year, Kajimura’s group showed for the first time that brown fat in adult humans consists primarily of so-called “beige fat,” which can transform from white to brown in cold conditions. The discovery immediately suggested a new approach for treating obesity: enhancing people’s baseline stores of energy-burning brown fat, known as the “browning” of white fat.

Kajimura et al searched for differences in how white and brown fat cells respond to the cold using phosphoproteomics. They discovered a protein called Casein Kinase 2 (CK2), which appears to be responsible for preventing white fat from burning energy for heat in cold conditions. When researchers inhibited the activity of this molecule genetically or pharmacologically, white fat cells became calorie burners like their brown and beige fat cells.”This one protein turned out to be the switch that regulates whether fat cells burn energy or not.”

CK2 activity is also heightened in obese mice, the team discovered, suggesting a link between obesity and the loss of brown fat.

“When we feed mice high fat foods, which is like going to McDonalds every day, they become obese and lose most of their brown fat,” said study lead author Kosaku Shinoda, a postdoc in Kajimura’s lab. “We think this molecule could be an important link.”

CK2-blocking drugs boost metabolism, prevent weight gain

The researchers tested 2 anti-CK2 drugs for their ability to stimulate the production of new brown fat in mice: a new small-molecule CK2-blocker called silmitasertib (CX-4945), which is already in clinical trials as a cancer therapeutic; and a more precise next-generation antisense oligonucleotide (ASO) drug which eliminates CK2 by blocking the RNA instructions cells use to produce it.

Both drugs succeeded in turning significant amounts of white fat brown and significantly increasing the amount of energy mice burned when researchers turned down the temperature in their living quarters. The drugs also significantly reduced the negative effects of a high-fat diet in mice, including reducing weight gain and, to the researchers’ surprise, significantly lowering blood glucose levels and improving responsiveness to insulin.

“This was very exciting to us,” Kajimura said. “In the past people have focused on all the beneficial effects of brown fat for treating obesity, but here we’ve found that it could help reduce the risk of type 2 diabetes, as well.”

The team also showed that CK2 inhibition + cool conditions dramatically reduce obesity in mice. Normally, mice fed a high fat diet for 45 days quickly balloon to nearly 160 percent of their starting weight. Treating mice with CK2-ASO or housing them at 17 degrees C (62.6 degrees F) each prevented > 25% of this weight gain. In combination the 2 Rx’s reduced weight gain by fully 40%. http://www.cell.com/cell-metabolism/abstract/S1550-4131(15)00516-1 http://www.newswise.com/articles/molecular-switch-generates-calorie-burning-brown-fat