New Type Of 'Good' Fat Could Help Cure Diabetes : LC Research/Media Forum : Active Low-Carber Forums

#1 ^

Tue, Oct-14-14, 06:33

Judynyc

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New Type Of 'Good' Fat Could Help Cure Diabetes

New Type Of 'Good' Fat Could Help Cure Diabetes

http://www.huffingtonpost.com/2014/...kusaolp00000592

Quote:

Scientists have added a new type of fat to the list of “good” fats that help keep us healthy. So healthy, in fact, that this new fat may play a role in eventually developing treatments to address Type 2 diabetes as well as inflammatory diseases like Crohn's disease and rheumatoid arthritis, according to the research team behind the discovery.

The fatty acid, called “FAHFA” (short for fatty acid hydroxyl acids), can be found in human fat cells as well as other human cells, according to lead author Barbara Kahn, a molecular endocrinologist at Beth Israel Deaconess Medical Center and a professor at Harvard Medical School. FAHFA actually helps cells secrete insulin (a hormone that helps regulate blood sugar) and it also improves insulin’s interactions with tissues in the body. Those two mechanisms are crucial to helping keep blood sugar levels down, which keeps Type 2 diabetes and obesity at bay.

Diabetes affects an estimated 347 million people around the world, and 90 percent of them have type 2 diabetes. Finding a cure is urgent, said Kahn, considering that patients are developing the disease at younger ages than ever before.

"We’re seeing a lot of more of it in youngsters -- in pediatric and adolescent populations,” said Kahn in a phone interview with HuffPost. "They may be getting blindness, kidney disease, amputations, cardiovascular disease and neurologic disease in their 40s, whereas we used to see those thing only later in life. It’s a major problem."

In a study published Oct. 9 in the journal Cell, Kahn and her team fed a FAHFA solution to insulin resistant, obese mice. As a result, their blood sugar levels plummeted in 30 minutes. Kahn also found that if mice had a lot of FAHFA in their system, the animals were better able to regulate their blood sugar levels when drinking a sugary solution.

Kahn and her colleagues decided to extend their FAHFA study to humans. They tested blood and fat samples from both insulin-resistant people who were at risk for Type 2 diabetes and a control group of healthy people who are insulin sensitive. People with high levels of naturally-occurring FAHFA were strongly correlated with insulin sensitivity, while low levels were linked to insulin resistance. Insulin resistant people, for instance, typically had 50 to 75 percent lower levels of FAHFA in their fat and blood than people with normal insulin sensitivity, which is a promising sign that FAHFA is somehow related to insulin production and blood sugar regulation.

If Kahn is able to demonstrate causality in humans, it could mean a breakthrough for type 2 diabetes care.

"The implications of the data in the paper are that raising the lipids in insulin resistant people, either by giving the lipids themselves, or by manipulating their metabolism in the body, could potentially have a therapeutic effect on diabetes control,” explained Kahn.

“I think its tremendously exciting that there's still molecules in the body, be they hormones or lipids, that are as yet undiscovered and that may offer new treatment approaches,” added Kahn, suggesting that she planned to begin initial trials in humans in the next couple of years.

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#2 ^

Tue, Oct-14-14, 08:59

khrussva

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Wow, that is interesting stuff. Thanks for posting it. Looks like this could be an explanation for why some people are insulin sensitive and others are insulin resistant. We'll just have to see where the research goes on this one. I really want to make joke about fat people eating skinny people for more FAHFA -- but I'd hate for people to take it seriously.

#3 ^

Tue, Oct-14-14, 09:14

aj_cohn

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I feel a craving for fava beans and chianti coming on.

#4 ^

Tue, Oct-14-14, 09:19

Judynyc

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OK, that is funny, Ken!

Here is another write up on this:

http://news.sciencemag.org/biology/...s-diabetes-mice

Quote:

Lipids, the chemical family that includes fats and related molecules, get blamed for clogged arteries and heart attacks. But thanks to careful detective work tracking the effects of a particular protein, researchers have discovered a class of lipids that prevent or reverse some of the harmful metabolic changes of diabetes and similar disorders in mice. These molecules might be therapeutic themselves, or they could lead researchers to new drugs.

Although many lipids are beneficial, some of them deserve their bad reputation, especially certain fatty acids, which sport long chains of carbon and hydrogen atoms. Trans fatty acids in processed foods can jack up our levels of unhealthy cholesterol, for instance, and studies have linked diabetes and obesity to increased amounts of fatty acids in the blood.

The new study puts fatty acids in a better light. Its origins date back to the 1990s. Researchers noticed that fat cells from people who were obese or had type 2 diabetes often carried too little Glut4, a protein that helps cells absorb sugar. “It’s very important for blood sugar control,” says molecular endocrinologist Barbara Kahn of Harvard Medical School in Boston. To study the effects of this protein, she and her colleagues genetically altered mice so that their fat cells produced extra Glut4 and gobbled up sugar.

These mice have puzzled scientists ever since. Although they are obese, they have the blood glucose and insulin levels of sleek and healthy rodents. The bonus Glut4, it appears, triggered production of extra lipids in their fat cells. Kahn and her colleagues hypothesized that some of these lipids were beneficial and explained the rodents’ healthy metabolism.

To hunt for these mystery molecules, Kahn’s group teamed up with lipid biologist Alan Saghatelian of the Salk Institute for Biological Studies in San Diego, California, and some of his colleagues. Using a technique called mass spectrometry that can weigh and identify molecules in a sample, the researchers pinpointed four lipids that were more abundant in the Glut4-overproducing mice and deciphered their molecular formulas.

But these molecules were nowhere to be found in standard lipid catalogs. “We were dealing with something new,” Saghatelian says. In all, the researchers uncovered 16 closely related fatty acids that they dubbed FAHFAs, or fatty acid-hydroxy fatty acids.

Experiments to tease out the molecules’ metabolic roles suggested they are salutary. In one experiment, for example, the researchers force-fed FAHFAs to normal mice that had been eating a high-fat diet and were insulin-resistant, meaning they didn’t respond normally to the hormone. Blood sugar plunged in the animals, and their glucose tolerance, or ability to absorb the molecule, rose. Providing FAHFAs to the animals “treats their diabetes,” Saghatelian says.

FAHFAs are not limited to mice. Kahn and Saghatelian’s team tested blood and fat from patients who are insulin-resistant—and thus at greater risk of developing diabetes—and from patients who are still insulin-sensitive. Blood levels of one FAHFA variety were 40% lower in the insulin-resistant group, the team reports this week in Cell.

Researchers rarely find new families of lipids, says cell biologist Alan Saltiel of the University of Michigan, Ann Arbor, who was not involved in the work. The lipids appear to stimulate a biochemical pathway that researchers are already probing as a target for diabetes drugs, he says. If further studies confirm this mechanism, FAHFAs might suggest new ways that researchers could modify the pathway.

One intriguing question is whether restoring FAHFA levels could help prevent or treat diabetes. The researchers discovered FAHFAs in a variety of foods, including apples, egg yolk, beef, and chicken. However, Kahn says it's premature to recommend that people alter their diets to try to consume more of the molecules. Even if chowing down on the fatty acids isn’t helpful, their discovery could still spark new treatments. Investigating the enzymes that produce and destroy FAHFAs in the body might help researchers develop drugs to adjust quantities of the fatty acids.

#5 ^

Tue, Oct-14-14, 10:27

keith v

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I don't get this part;

Quote:

In one experiment, for example, the researchers force-fed FAHFAs to normal mice that had been eating a high-fat diet and were insulin-resistant, meaning they didn’t respond normally to the hormone. Blood sugar plunged in the animals, and their glucose tolerance, or ability to absorb the molecule, rose. Providing FAHFAs to the animals “treats their diabetes,” Saghatelian says.

why would their blood sugar be high if they were on a high fat diet, unless it was also a high carb diet??

#6 ^

Thu, Oct-16-14, 12:45

deb34

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don't they add the fat to the mouse chow which is high carb anyway? I would guess the mice don't eat foie gras or bacon and eggs on a regular basis so they get the adulterated mouse chow...