There is a receptor in our intestines activated by phytonutrients in cruciferous vegetables that boosts immune function (the aryl hydrocarbon [Ah] receptor).
The Broccoli Receptor: Our First Line of Defense
Below is an approximation of this video’s audio content. To see any graphs, charts, graphics, images, and quotes to which Dr. Greger may be referring, watch the above video.
Our greatest exposure to the environment, our body’s greatest interface with the outside world, is not through our skin, but through the lining of our gut, which covers thousands of square feet. And in our intestine, all that separates us from the outside world is a single layer of cells, 50 millionth of a meter thick. The distance between the outside world and our bloodstream is less than the thickness of a sheet of paper.
In contrast, here’s a layer of skin. Look at that—dozens of layers of protective cells to keep the outside world, outside of our bodies. Why don’t we have multiple layers in our gut wall? Because we need to absorb stuff from food into our body. It’s a good idea for our skin to be waterproof, so we don’t start leaking, but the lining of our gut has to allow for the absorption of fluids and nutrients.
With such a thin fragile layer between our sterile core and outer chaos, we better have quite a defense system in place. And, indeed, that’s where intraepithelial lymphocytes come in. They serve two functions. They “condition and repair” that thin barrier, and provide a “front-line defence against [intestinal] pathogens.” These critical cells are covered with receptors, called Ah receptors. The Ah receptor is like a lock. And, for decades researchers have been searching for a natural key to fit into that lock, to activate those receptors, and sustain our immunity. And, we just discovered the key is broccoli.
Cruciferous vegetables—broccoli, Brussels sprouts, kale, cauliflower, cabbage—contain a phytonutrient that is transformed by our stomach acid into the key that fits into the Ah receptor locks on our intraepithelial lymphocytes, leading to their activation. Here’s a less busy diagram that illustrates the same thing: broccoli leading to the activation of our immune footsoldiers. So, now we know “specific dietary compounds present in cruciferous vegetables act through the Ah [receptors] to promote intestinal immune function.”
“From childhood, we learn that vegetables are good for us, and most of us eat our veggies without giving much thought to the evidence behind this accepted wisdom, or to the mechanisms underlying the purported health-boosting properties of a vegetable-rich diet.” But now, we know that “specific dietary compounds found at high levels in cruciferous vegetables, such as broccoli, cauliflower, and cabbage are essential for sustaining intestinal immune function.” Green vegetables are, in fact, “required to maintain a large population of [those protective] intraepithelial lymphocytes.”
Maybe that’s why vegetable intake is associated with lower risk of inflammatory bowel diseases, such as ulcerative colitis—whereas the more meat-centered Western diet is associated with higher risk of inflammatory bowel diseases. This may be because the activating receptors on our intestinal immune cells are basically “a sensor [for] plant-derived phytochemicals.”
This raises a broader question. Why did our immune system evolve this requirement for broccoli and other plant foods? Well, think about it; when do we need to boost our intestinal defenses the most? When we eat. “Thus, linking heightened intestinal immune activation to food intake could serve to bolster immunity, precisely when it is needed. At the same time, this would allow energy to be conserved in times of food scarcity,” since it takes so much energy. I mean, why remain at red alert 24/7 when you only eat a couple times a day? Since we evolved for millions of years eating mostly weeds—wild plants, dark green leafy vegetables, or, as they were known back then, just, leaves—by equating veggies with food, our bodies may be using them as a signal to upkeep our immune system. Thus, “the old recommendation ‘eat your veggies’ has a strong molecular basis.
This discovery has been all exciting for the drug companies, who are looking into Ah receptor-active pharmaceuticals. “However,” as one research team at Cambridge concluded, “rather than developing additional anti-inflammatory drugs, changing diets which are…currently highly processed and low in vegetable content, may be a more cost effective way towards health and well-being.”
Please consider volunteering to help out on the site.
- I. Monteleone, T. T. MacDonald, F. Pallone, G. Monteleone. The aryl hydrocarbon receptor in inflammatory bowel disease: Linking the environment to disease pathogenesis. Curr. Opin. Gastroenterol. 2012 28(4):310 - 313.
- E. Moens, M. Veldhoen. Epithelial barrier biology: Good fences make good neighbours. Immunology 2012 135(1):1 - 8.
- T. T. Macdonald, G. Monteleone. Immunity, inflammation, and allergy in the gut. Science 2005 307(5717):1920 - 1925.
- B. S. Sheridan, L. Lefranccois. Intraepithelial lymphocytes: To serve and protect. Curr Gastroenterol Rep. 2010 12(6):513 - 521.
- H. Cheroutre, F. Lambolez, D. Mucida. The light and dark sides of intestinal intraepithelial lymphocytes. Nat. Rev. Immunol. 2011 11(7):445 - 456.
- H. Cheroutre. Starting at the beginning: New perspectives on the biology of mucosal T cells. Annu. Rev. Immunol. 2004 22:217 - 246.
- U.-H. Jin, S.-O. Lee, S. Safe. Aryl hydrocarbon receptor (AHR)-active pharmaceuticals are selective AHR modulators in MDA-MB-468 and BT474 breast cancer cells. J. Pharmacol. Exp. Ther. 2012 343(2):333 - 341
- L. V. Hooper. You AhR what you eat: Linking diet and immunity. Cell 2011 147(3):489 - 491.
- C. Esser. Biology and function of the aryl hydrocarbon receptor: Report of an international and interdisciplinary conference. Arch. Toxicol. 2012 86(8):1323 - 1329.
- H. Tilg. Diet and Intestinal Immunity. N Engl J Med. 2012 366(2):181-183.
- H. Cheroutre. IELs: Enforcing law and order in the court of the intestinal epithelium. Immunol. Rev. 2005 206:114 - 131.
Images thanks to ChangGp and Johnson Cameraface via flickr; Mikael Häggström via Wikimedia; and OCAL via clker.com
Below is an approximation of this video’s audio content. To see any graphs, charts, graphics, images, and quotes to which Dr. Greger may be referring, watch the above video.
Our greatest exposure to the environment, our body’s greatest interface with the outside world, is not through our skin, but through the lining of our gut, which covers thousands of square feet. And in our intestine, all that separates us from the outside world is a single layer of cells, 50 millionth of a meter thick. The distance between the outside world and our bloodstream is less than the thickness of a sheet of paper.
In contrast, here’s a layer of skin. Look at that—dozens of layers of protective cells to keep the outside world, outside of our bodies. Why don’t we have multiple layers in our gut wall? Because we need to absorb stuff from food into our body. It’s a good idea for our skin to be waterproof, so we don’t start leaking, but the lining of our gut has to allow for the absorption of fluids and nutrients.
With such a thin fragile layer between our sterile core and outer chaos, we better have quite a defense system in place. And, indeed, that’s where intraepithelial lymphocytes come in. They serve two functions. They “condition and repair” that thin barrier, and provide a “front-line defence against [intestinal] pathogens.” These critical cells are covered with receptors, called Ah receptors. The Ah receptor is like a lock. And, for decades researchers have been searching for a natural key to fit into that lock, to activate those receptors, and sustain our immunity. And, we just discovered the key is broccoli.
Cruciferous vegetables—broccoli, Brussels sprouts, kale, cauliflower, cabbage—contain a phytonutrient that is transformed by our stomach acid into the key that fits into the Ah receptor locks on our intraepithelial lymphocytes, leading to their activation. Here’s a less busy diagram that illustrates the same thing: broccoli leading to the activation of our immune footsoldiers. So, now we know “specific dietary compounds present in cruciferous vegetables act through the Ah [receptors] to promote intestinal immune function.”
“From childhood, we learn that vegetables are good for us, and most of us eat our veggies without giving much thought to the evidence behind this accepted wisdom, or to the mechanisms underlying the purported health-boosting properties of a vegetable-rich diet.” But now, we know that “specific dietary compounds found at high levels in cruciferous vegetables, such as broccoli, cauliflower, and cabbage are essential for sustaining intestinal immune function.” Green vegetables are, in fact, “required to maintain a large population of [those protective] intraepithelial lymphocytes.”
Maybe that’s why vegetable intake is associated with lower risk of inflammatory bowel diseases, such as ulcerative colitis—whereas the more meat-centered Western diet is associated with higher risk of inflammatory bowel diseases. This may be because the activating receptors on our intestinal immune cells are basically “a sensor [for] plant-derived phytochemicals.”
This raises a broader question. Why did our immune system evolve this requirement for broccoli and other plant foods? Well, think about it; when do we need to boost our intestinal defenses the most? When we eat. “Thus, linking heightened intestinal immune activation to food intake could serve to bolster immunity, precisely when it is needed. At the same time, this would allow energy to be conserved in times of food scarcity,” since it takes so much energy. I mean, why remain at red alert 24/7 when you only eat a couple times a day? Since we evolved for millions of years eating mostly weeds—wild plants, dark green leafy vegetables, or, as they were known back then, just, leaves—by equating veggies with food, our bodies may be using them as a signal to upkeep our immune system. Thus, “the old recommendation ‘eat your veggies’ has a strong molecular basis.
This discovery has been all exciting for the drug companies, who are looking into Ah receptor-active pharmaceuticals. “However,” as one research team at Cambridge concluded, “rather than developing additional anti-inflammatory drugs, changing diets which are…currently highly processed and low in vegetable content, may be a more cost effective way towards health and well-being.”
Please consider volunteering to help out on the site.
- I. Monteleone, T. T. MacDonald, F. Pallone, G. Monteleone. The aryl hydrocarbon receptor in inflammatory bowel disease: Linking the environment to disease pathogenesis. Curr. Opin. Gastroenterol. 2012 28(4):310 - 313.
- E. Moens, M. Veldhoen. Epithelial barrier biology: Good fences make good neighbours. Immunology 2012 135(1):1 - 8.
- T. T. Macdonald, G. Monteleone. Immunity, inflammation, and allergy in the gut. Science 2005 307(5717):1920 - 1925.
- B. S. Sheridan, L. Lefranccois. Intraepithelial lymphocytes: To serve and protect. Curr Gastroenterol Rep. 2010 12(6):513 - 521.
- H. Cheroutre, F. Lambolez, D. Mucida. The light and dark sides of intestinal intraepithelial lymphocytes. Nat. Rev. Immunol. 2011 11(7):445 - 456.
- H. Cheroutre. Starting at the beginning: New perspectives on the biology of mucosal T cells. Annu. Rev. Immunol. 2004 22:217 - 246.
- U.-H. Jin, S.-O. Lee, S. Safe. Aryl hydrocarbon receptor (AHR)-active pharmaceuticals are selective AHR modulators in MDA-MB-468 and BT474 breast cancer cells. J. Pharmacol. Exp. Ther. 2012 343(2):333 - 341
- L. V. Hooper. You AhR what you eat: Linking diet and immunity. Cell 2011 147(3):489 - 491.
- C. Esser. Biology and function of the aryl hydrocarbon receptor: Report of an international and interdisciplinary conference. Arch. Toxicol. 2012 86(8):1323 - 1329.
- H. Tilg. Diet and Intestinal Immunity. N Engl J Med. 2012 366(2):181-183.
- H. Cheroutre. IELs: Enforcing law and order in the court of the intestinal epithelium. Immunol. Rev. 2005 206:114 - 131.
Images thanks to ChangGp and Johnson Cameraface via flickr; Mikael Häggström via Wikimedia; and OCAL via clker.com
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The Broccoli Receptor: Our First Line of Defense
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Content URLDoctor's Note
Did we really evolve eating that many plant foods? See Paleolithic Lessons.
As remarkable as this story is, this is just the tip of the cruciferous iceberg! See, for example:
- Prolonged Liver Function Enhancement from Broccoli
- Broccoli vs. Breast Cancer Stem Cells
- The Best Detox
- DNA Protection from Broccoli
- Prevent Breast Cancer by Any Greens Necessary
How else can we protect our immune function? Exercise (see Preserving Immune Function In Athletes with Nutritional Yeast) and sleep!
Given the variety and flexibility of most mammalian diets, a specific dependence on cruciferous vegetables for optimal intestinal immune function would seem overly restrictive, no? I address that in my next video, Counteracting the Effects of Dioxins through Diet.
For additional context, check out my associated blog post: Our Immune System Uses Plants to Activate Gut Protection.
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