Leptin, low-carb and hunger Michael R. Eades, M.D.
The drug rimonabant (Acomplia) that failed to pass muster with the FDA panel last week works by blocking some of the hunger receptors in the brain. In other words, those who take the drug - assuming it works as touted - will be less hungry. Less hunger means less food consumption. Less food consumption typically results in weight loss. So, if you take rimonabant, assuming you don’t become suicidal and do yourself in (the big worry of the FDA panel since the major side effects are varying degrees of psychoses), you should lose some weight. But there is a better, cheaper way.
The low-carbohydrate diet working through the hormone leptin reduces hunger much more than rimonabant on its best day. And without the risk of serious side effects. And without the $250 per month for the drug.
Before we get into the explanation as to how the low-carb diet works to reduce hunger, we need to define a couple of terms that may not be familiar to all: the blood brain barrier and leptin.
[...]
Leptin is a hormone made by fat cells. When there are a lot of fat cells they secrete a lot of leptin. What does leptin do? It seems that every day a new function for leptin is postulated, but for our purposes now, let’s stick with what most scientists consider the primary function of leptin: regulation of the fat mass by regulating hunger.
Leptin acts almost like the gas gauge on a car. As you drive your car, sensors in the gas tank monitor the level of the gasoline (fuel) in the tank and send signals to a gauge on your dashboard. When the fuel gauge on your dashboard starts to signal that your tank is close to empty, you start looking for a gas station.
When your fat cells are full, they send a signal (leptin) to your brain that says, ‘Hey, we’re full, shut off the food.’ After a period of no eating because you’re not hungry, your fat cells start to get a little smaller. As they do, they produce less leptin. Less leptin hitting your brain tells it you need to fill up the fat cells, the brain responds by increasing your hunger. You eat, the fat cells fill up, they send more leptin, the brain shuts off your hunger.
That’s the way it works in a perfect world. That’s the way it worked in our Paleolithic past. But, unfortunately, that’s not always how it works now. If it did, no one would be obese. But, we’re in the throes of an obesity epidemic, so something is clearly wrong with this picture. Have all these obese people quit making leptin?
No, far from it. Obese people make a large amount of leptin, way more than non-obese people in fact, but they are resistant to the effects of their own leptin in much the same way they’re resistant to the effects of their own insulin.
[...]
Here’s how it all works:
The fat mass - the stored fat on the body - produces leptin, which is secreted into the blood in the circulatory system. When leptin reaches the capillaries (the tiniest blood vessels) in the brain, leptin makes its way across the BBB and into the fluid around the brain cells where it binds to the leptin receptors on the arcuate nucleus of the hypothalamus. The arcuate nucleus then sends signals to decrease food consumption and increase metabolic rate.
As the fat mass decreases in size -as it does when you don’t eat for a while and the stored fat is burned for energy - the amount of leptin in the circulation decreases as well. Less leptin crosses the BBB, less binds to the leptin receptors, and the arcuate nucleus sends out the ‘It’s time to eat’ signal. You eat and replenish the fat mass, leptin goes up, and the cycle starts again.
So as leptin levels wax and wane, so does your sense of hunger and even, to an extent, your metabolic rate.
Where does the low-carb diet fit into the picture?
There is a critical point in the cycle described above. That critical point is when the leptin crosses the BBB. If the leptin can’t get across the BBB, it can’t get to the brain. If it doesn’t get to the brain, it doesn’t shut off the hunger response irrespective of how much is circulating in the blood.
Most obese people find themselves in this very situation: high blood levels of leptin but still hungry. And eating makes more fat, which makes more leptin, which should shut off the hunger response, but it doesn’t because the ever increasing levels of leptin telling the brain to tell the obese person to quit eating don’t get to the brain to do their job.
Why not?
Research done a couple of years ago in St. Louis and in Japan pinpointed the problem. Triglycerides - fat circulating in the blood - interrupts the passage of leptin across the BBB. If trigylcerides are high, which they are in most obese people, then, basically, they block the movement of leptin into the brain. So, leptin levels are elevated in the blood, and triglycerides keep the leptin from getting to where it needs to get to shut off hunger. (click here for the abstract and full text of this research paper.)
We all know that the commonest lab finding in people following a low-carb diet is a dramatic reduction in triglyceride levels. This reduction in triglycerides allows the leptin that is already circulating in relatively large amounts to get through to the brain where it can reduce hunger. I believe that this reduction in triglycerides (which happens fairly quickly) is the primary reason that people substantially decrease their hunger on low-carb diets. And remember from the graphic above that leptin - once it gets to the brain - actually increases thermogenesis as well, which means that the metabolic rate increases.
So, the triglyceride reduction from following a low-carb diet does does double duty when more leptin gets to the brain: hunger goes down and metabolic rate goes up. That duo increases weight loss. Is it any wonder that low-carb diets virtually always manhandle low-fat diets in terms of weight loss in all of the studies in which they are compared? And it it any wonder that when people are allowed to eat an ad lib low-carb diet, they always consume fewer calories than those consuming an ad lib low-fat/high-carbohydrate diet?
Carbohydrates cause triglycerides to increase. All of Dr. Dean Ornish’s studies have shown that subjects following his ultra-low-fat/extremely-high-carbohydrate diet find their triglycerides screaming upward. It’s no wonder that most people have difficulty sticking on his diet or any low-fat/high-carb diet for very long without a lot of hand holding, behavioral therapy, meditation and the rest of his total program. People following these Ornish-like nutritional regimens are sabotaged by the elevated triglycerides that these diets cause. Consequently, they are always hungry. And sooner or later, they give in to their hunger.
The drug rimonabant (Acomplia) that failed to pass muster with the FDA panel last week works by blocking some of the hunger receptors in the brain. In other words, those who take the drug - assuming it works as touted - will be less hungry. Less hunger means less food consumption. Less food consumption typically results in weight loss. So, if you take rimonabant, assuming you don’t become suicidal and do yourself in (the big worry of the FDA panel since the major side effects are varying degrees of psychoses), you should lose some weight. But there is a better, cheaper way.
The low-carbohydrate diet working through the hormone leptin reduces hunger much more than rimonabant on its best day. And without the risk of serious side effects. And without the $250 per month for the drug.
Before we get into the explanation as to how the low-carb diet works to reduce hunger, we need to define a couple of terms that may not be familiar to all: the blood brain barrier and leptin.
[...]
Leptin is a hormone made by fat cells. When there are a lot of fat cells they secrete a lot of leptin. What does leptin do? It seems that every day a new function for leptin is postulated, but for our purposes now, let’s stick with what most scientists consider the primary function of leptin: regulation of the fat mass by regulating hunger.
Leptin acts almost like the gas gauge on a car. As you drive your car, sensors in the gas tank monitor the level of the gasoline (fuel) in the tank and send signals to a gauge on your dashboard. When the fuel gauge on your dashboard starts to signal that your tank is close to empty, you start looking for a gas station.
When your fat cells are full, they send a signal (leptin) to your brain that says, ‘Hey, we’re full, shut off the food.’ After a period of no eating because you’re not hungry, your fat cells start to get a little smaller. As they do, they produce less leptin. Less leptin hitting your brain tells it you need to fill up the fat cells, the brain responds by increasing your hunger. You eat, the fat cells fill up, they send more leptin, the brain shuts off your hunger.
That’s the way it works in a perfect world. That’s the way it worked in our Paleolithic past. But, unfortunately, that’s not always how it works now. If it did, no one would be obese. But, we’re in the throes of an obesity epidemic, so something is clearly wrong with this picture. Have all these obese people quit making leptin?
No, far from it. Obese people make a large amount of leptin, way more than non-obese people in fact, but they are resistant to the effects of their own leptin in much the same way they’re resistant to the effects of their own insulin.
[...]
Here’s how it all works:
The fat mass - the stored fat on the body - produces leptin, which is secreted into the blood in the circulatory system. When leptin reaches the capillaries (the tiniest blood vessels) in the brain, leptin makes its way across the BBB and into the fluid around the brain cells where it binds to the leptin receptors on the arcuate nucleus of the hypothalamus. The arcuate nucleus then sends signals to decrease food consumption and increase metabolic rate.
As the fat mass decreases in size -as it does when you don’t eat for a while and the stored fat is burned for energy - the amount of leptin in the circulation decreases as well. Less leptin crosses the BBB, less binds to the leptin receptors, and the arcuate nucleus sends out the ‘It’s time to eat’ signal. You eat and replenish the fat mass, leptin goes up, and the cycle starts again.
So as leptin levels wax and wane, so does your sense of hunger and even, to an extent, your metabolic rate.
Where does the low-carb diet fit into the picture?
There is a critical point in the cycle described above. That critical point is when the leptin crosses the BBB. If the leptin can’t get across the BBB, it can’t get to the brain. If it doesn’t get to the brain, it doesn’t shut off the hunger response irrespective of how much is circulating in the blood.
Most obese people find themselves in this very situation: high blood levels of leptin but still hungry. And eating makes more fat, which makes more leptin, which should shut off the hunger response, but it doesn’t because the ever increasing levels of leptin telling the brain to tell the obese person to quit eating don’t get to the brain to do their job.
Why not?
Research done a couple of years ago in St. Louis and in Japan pinpointed the problem. Triglycerides - fat circulating in the blood - interrupts the passage of leptin across the BBB. If trigylcerides are high, which they are in most obese people, then, basically, they block the movement of leptin into the brain. So, leptin levels are elevated in the blood, and triglycerides keep the leptin from getting to where it needs to get to shut off hunger. (click here for the abstract and full text of this research paper.)
We all know that the commonest lab finding in people following a low-carb diet is a dramatic reduction in triglyceride levels. This reduction in triglycerides allows the leptin that is already circulating in relatively large amounts to get through to the brain where it can reduce hunger. I believe that this reduction in triglycerides (which happens fairly quickly) is the primary reason that people substantially decrease their hunger on low-carb diets. And remember from the graphic above that leptin - once it gets to the brain - actually increases thermogenesis as well, which means that the metabolic rate increases.
So, the triglyceride reduction from following a low-carb diet does does double duty when more leptin gets to the brain: hunger goes down and metabolic rate goes up. That duo increases weight loss. Is it any wonder that low-carb diets virtually always manhandle low-fat diets in terms of weight loss in all of the studies in which they are compared? And it it any wonder that when people are allowed to eat an ad lib low-carb diet, they always consume fewer calories than those consuming an ad lib low-fat/high-carbohydrate diet?
Carbohydrates cause triglycerides to increase. All of Dr. Dean Ornish’s studies have shown that subjects following his ultra-low-fat/extremely-high-carbohydrate diet find their triglycerides screaming upward. It’s no wonder that most people have difficulty sticking on his diet or any low-fat/high-carb diet for very long without a lot of hand holding, behavioral therapy, meditation and the rest of his total program. People following these Ornish-like nutritional regimens are sabotaged by the elevated triglycerides that these diets cause. Consequently, they are always hungry. And sooner or later, they give in to their hunger.
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