To trigger body’s
energy-burning brown fat, just chill
BERKELEY —
Those who overindulged
during the holidays may want to get a shot of cold air to kick-start some extra
fat-burning activity for the new year.
Researchers at
UC Berkeley found that exposure to cold temperatures increases levels of a
newly discovered protein that is critical for the formation of brown fat, the
type of fat in our bodies that generates heat. With extended exposure to chilly
air, the protein, called transcription factor Zfp516, also helps the more
abundant white fat in our bodies – the kind that stores excess energy – become
more similar to brown fat in its ability to burn energy.
The researchers found
that mice with boosted levels of the Zfp516 protein gained 30 percent less
weight than control mice when both groups were fed a high-fat diet.
The new findings,
published online today (Thursday, Jan. 8) in the journal Molecular Cell,
shed light on a type of fat that has drawn increased attention from researchers
in the past five years.
“Knowing which
proteins regulate brown fat is significant because brown fat is not only
important for thermogenesis, but there is evidence that brown fat may also
affect metabolism and insulin resistance,” said principal investigator Hei Sook
Sul, UC Berkeley professor of nutritional science and toxicology. “If you can
somehow increase levels of this protein through drugs, you could have more
brown fat, and could possibly lose more weight even if eating the same amount
of food.”
White
fat, brown fat, good fat, bad fat
Unlike white fat,
which stores excess energy, brown fat burns energy to keep us warm. Brown fat
gets its hue from relatively high levels of mitochondria, the cell’s power
station. In humans, brown fat was thought to be present only in infants, but
stores of it were recently discovered in adults around such vital areas as the
heart, brain, neck and spinal cord.
The study authors said
that because we generally live our lives in controlled, ambient temperatures,
our need for brown fat has decreased over time.
“It has been noted
that outdoor workers in northern Finland who are exposed to cold temperature
have a significant amount of brown fat when compared to same-aged indoor
workers, but overall, the percentage of brown fat in adults is small compared
to white fat,” said Sul. “We also know that obese people have lower levels of
brown fat.”
The UC Berkeley team
discovered that the Zfp516 protein activates uncoupling protein 1 (UCP1), found
only in the mitochondria of brown fat and involved in the generation of heat.
“The amount of UCP1
produced by brown-like fat cells will be lower than that of classical brown
fat, but since 90 percent of the fat in our bodies consists of white fat,
finding a way to make that tissue more brown-like could have a significant
impact,” said Sul.
Making
white fat into brown-like fat
When the researchers
disabled the gene for Zfp516 in mouse embryos, the embryos did not develop any
brown fat. In another experiment, researchers found that mice with higher
levels of Zfp516 protein were able to convert more white fat tissue into
brown-like fat when exposed to cold air. After four hours in a room kept at 4
degrees Celsius (39.2 degrees Fahrenheit), the body temperature of the mice
with the overexpressed Zfp516 protein was, on average, 1 degree Celsius (1.8
degrees Fahrenheit) higher than a control group of mice with normal levels of
the protein.
“That difference in
body temperature is huge for the mice,” said study co-lead author Jon
Dempersmier, a Ph.D. student in nutritional science and toxicology. “The
brown-like fat, the kind converted from white fat tissue, is inducible by cold.
Classical brown fat, the kind in babies and prevalent in rodents, always has a
ton of UCP1 and mitochondria in order to perform thermogenesis.”
The mice with
overexpressed Zfp516 protein also gained less weight than their unaltered
littermates after both groups ate a high-fat diet for four weeks.
“This suggests that
the transgenic mice were protected from diet-induced obesity,” said Sul. “This
protein could become an important target for research into the treatment and
prevention of obesity and obesity-related diseases.”
The study authors
noted that there’s an active area of research in the relationship between brown
fat and diabetes. Higher levels of brown fat are associated with greater
sensitivity to insulin. Resistance to insulin leads to Type 2 diabetes.
The researchers noted
that there are many steps between discovering the protein in mice and
determining whether it can be useful in humans, but they said that having a
clear target is an important development.
“Brown fat is active,
using up calories to keep the body warm,” said Dempersmier. “It’ll burn fat,
it’ll burn glucose. So the idea is that if we can harness this, we can try to
use this in therapy for weight loss and for diabetes.”
The National
Institutes of Health helped support this research.
By Sarah Yang
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