How to Prevent Gut How to how Prevent Gut Inflammation
When you count all the little folds, the total surface area of our gut is about 3,000 square feet. That’s larger than a tennis court. Yet, only a single layer of cells separates our inner core from the outer chaos. The primary fuel that keeps this critical cell layer alive is a short-chain fatty acid called butyrate, which our good bacteria make from the fiber we eat. We feed the good bacteria in our gut, and they feed us right back. As shown in my video, Prebiotics: Tending Our Inner Garden, our good gut bacteria take the prebiotics we eat, like fiber, and, in return, provide the vital fuel source that feeds the cells that line our colon—a prototypical example of the symbiosis between us and our gut flora.
How important are these compounds that our good bacteria derive from fiber? Researchers have explained that a condition known as diversion colitis “frequently develops in segments of the colorectum after surgical diversion of the fecal stream.” What does that mean? If you skip a segment of the bowel (like with an ileostomy) so food no longer passes through that section, it becomes inflamed and can start bleeding, breaking down, and closing off. How frequently does this happen? It can occur up to 100% of the time, but the inflammation uniformly disappears after you reattach it to the fecal flow.
We didn’t know what caused this. Perhaps it was some kind of bacterial overgrowth or bad bacteria? No, it was a nutritional deficiency of the lining of the colon due to the absence of the fiber needed to create the short-chain fatty acids. This was proven in a study wherein researchers cured the inflammation by bathing the lining in what it so desperately needed: fiber breakdown products. Severe inflammation was gone in just a few weeks, demonstrating that when we feed the good bacteria in our gut, they feed us right back.
It makes sense that we have good bacteria in our gut that feed us and try to keep us healthy—they have a pretty good thing going. Our guts are warm and moist, and food just keeps magically coming down the pipe. But if we die, they lose out on all of that. If we die, they die, so it’s in their best evolutionary interest to keep us happy.
But, there are bad bugs, too, like cholera that cause diarrhea. These have a different strategy: The sicker they can make us, the more explosive the diarrhea, and the better their chances of spreading to other people and into other colons. They don’t care if we die, because they don’t intend on going down with the ship.
So, how does the body keep the good bacteria around while getting rid of the bad? Think about it. We have literally trillions of bacteria in our gut, so our immune system must constantly maintain a balance between tolerating good bacteria while attacking bad bacteria. If we mess up this fine balance and start attacking harmless bacteria, it could lead to inflammatory bowel disease, where we’re in constant red-alert attack mode. Researchers explained, “The mechanisms by which the immune system maintains this critical balance remain largely undefined.” That was true…until now.
If you think about it, there has to be a way for our good bacteria to signal to our immune system that they’re the good guys. There is. And that signal is butyrate. Researchers found that butyrate suppresses the inflammatory reaction and tells our immune system to stand down, so butyrate “may behave as a microbial signal to inform [our] immune system that the relative levels of [good] bacteria are within the desired range.” Butyrate calms the immune system down, saying in effect, “All’s well. You’ve got the good guys on board.” This ultimately renders the intestinal immune system hyporesponsive, (i.e., accommodating) to the beneficial bacteria. But, in the absence of the calming effect of butyrate, our immune system is back in full force, attacking the bacteria within our gut under the assumption that those are obviously not the good ones since butyrate levels are so low.
We evolved to have butyrate suppress our immune reaction, so should our good bacteria ever get wiped out and bad bacteria take over, our immune system would be able to sense this and go on a rampage to destroy the invaders and continue rampaging until there were only good bacteria creating butyrate to put the immune system back to sleep.
But what if we don’t eat enough fiber? Remember, our good bacteria use fiber to create butyrate. So, if we don’t eat enough fiber, we can’t make enough butyrate. We could have lots of good bacteria, but if we don’t feed them fiber, they can’t make butyrate. And when our body senses low levels of butyrate, it thinks our gut must be filled with bad bacteria and reacts accordingly. In other words, our body can mistake low fiber intake for having a population of bad bacteria in our gut.
Our body doesn’t know about processed food—it evolved over millions of years getting massive fiber intake. Even during the Paleolithic period, humans ingested 100 grams of fiber a day. So, on fiber-deficient Western diets (Spam on Wonder Bread, anyone?), when our body detects low butyrate levels in the gut, it doesn’t think low fiber. As far as our body is concerned, there’s no such thing as low fiber. So, instead, it thinks bad bacteria. For millions of years, low butyrate has meant bad bacteria, so that’s the signal for our body to go on the inflammatory offensive. That’s one reason why fiber can be so anti-inflammatory and one of the reasons it’s said that “[f]iber intake is critical for optimal health.”
It’s important to note that we’re not referring to fiber supplements here, but whole plant foods. Fiber supplementation with something like Metamucil may “not replicate the results seen with a diet naturally high in fiber.”
Written By Michael Greger M.D. FACLM on March 6th, 2018
When you count all the little folds, the total surface area of our gut is about 3,000 square feet. That’s larger than a tennis court. Yet, only a single layer of cells separates our inner core from the outer chaos. The primary fuel that keeps this critical cell layer alive is a short-chain fatty acid called butyrate, which our good bacteria make from the fiber we eat. We feed the good bacteria in our gut, and they feed us right back. As shown in my video, Prebiotics: Tending Our Inner Garden, our good gut bacteria take the prebiotics we eat, like fiber, and, in return, provide the vital fuel source that feeds the cells that line our colon—a prototypical example of the symbiosis between us and our gut flora.
How important are these compounds that our good bacteria derive from fiber? Researchers have explained that a condition known as diversion colitis “frequently develops in segments of the colorectum after surgical diversion of the fecal stream.” What does that mean? If you skip a segment of the bowel (like with an ileostomy) so food no longer passes through that section, it becomes inflamed and can start bleeding, breaking down, and closing off. How frequently does this happen? It can occur up to 100% of the time, but the inflammation uniformly disappears after you reattach it to the fecal flow.
We didn’t know what caused this. Perhaps it was some kind of bacterial overgrowth or bad bacteria? No, it was a nutritional deficiency of the lining of the colon due to the absence of the fiber needed to create the short-chain fatty acids. This was proven in a study wherein researchers cured the inflammation by bathing the lining in what it so desperately needed: fiber breakdown products. Severe inflammation was gone in just a few weeks, demonstrating that when we feed the good bacteria in our gut, they feed us right back.
It makes sense that we have good bacteria in our gut that feed us and try to keep us healthy—they have a pretty good thing going. Our guts are warm and moist, and food just keeps magically coming down the pipe. But if we die, they lose out on all of that. If we die, they die, so it’s in their best evolutionary interest to keep us happy.
But, there are bad bugs, too, like cholera that cause diarrhea. These have a different strategy: The sicker they can make us, the more explosive the diarrhea, and the better their chances of spreading to other people and into other colons. They don’t care if we die, because they don’t intend on going down with the ship.
So, how does the body keep the good bacteria around while getting rid of the bad? Think about it. We have literally trillions of bacteria in our gut, so our immune system must constantly maintain a balance between tolerating good bacteria while attacking bad bacteria. If we mess up this fine balance and start attacking harmless bacteria, it could lead to inflammatory bowel disease, where we’re in constant red-alert attack mode. Researchers explained, “The mechanisms by which the immune system maintains this critical balance remain largely undefined.” That was true…until now.
If you think about it, there has to be a way for our good bacteria to signal to our immune system that they’re the good guys. There is. And that signal is butyrate. Researchers found that butyrate suppresses the inflammatory reaction and tells our immune system to stand down, so butyrate “may behave as a microbial signal to inform [our] immune system that the relative levels of [good] bacteria are within the desired range.” Butyrate calms the immune system down, saying in effect, “All’s well. You’ve got the good guys on board.” This ultimately renders the intestinal immune system hyporesponsive, (i.e., accommodating) to the beneficial bacteria. But, in the absence of the calming effect of butyrate, our immune system is back in full force, attacking the bacteria within our gut under the assumption that those are obviously not the good ones since butyrate levels are so low.
We evolved to have butyrate suppress our immune reaction, so should our good bacteria ever get wiped out and bad bacteria take over, our immune system would be able to sense this and go on a rampage to destroy the invaders and continue rampaging until there were only good bacteria creating butyrate to put the immune system back to sleep.
But what if we don’t eat enough fiber? Remember, our good bacteria use fiber to create butyrate. So, if we don’t eat enough fiber, we can’t make enough butyrate. We could have lots of good bacteria, but if we don’t feed them fiber, they can’t make butyrate. And when our body senses low levels of butyrate, it thinks our gut must be filled with bad bacteria and reacts accordingly. In other words, our body can mistake low fiber intake for having a population of bad bacteria in our gut.
Our body doesn’t know about processed food—it evolved over millions of years getting massive fiber intake. Even during the Paleolithic period, humans ingested 100 grams of fiber a day. So, on fiber-deficient Western diets (Spam on Wonder Bread, anyone?), when our body detects low butyrate levels in the gut, it doesn’t think low fiber. As far as our body is concerned, there’s no such thing as low fiber. So, instead, it thinks bad bacteria. For millions of years, low butyrate has meant bad bacteria, so that’s the signal for our body to go on the inflammatory offensive. That’s one reason why fiber can be so anti-inflammatory and one of the reasons it’s said that “[f]iber intake is critical for optimal health.”
It’s important to note that we’re not referring to fiber supplements here, but whole plant foods. Fiber supplementation with something like Metamucil may “not replicate the results seen with a diet naturally high in fiber.”
By Michael Greger M.D. FACLM on March 6th, 2018