Dr. Oz Five Food Felons

---the other 200 posts---

Biofilms on intestine microvilli

The medical industry is slowly pulling away from diet advice that has contributed significantly to disease in America.  It promoted or at least tolerated, the shift from butter to margarine and polyunsaturated vegetable oils, and from saturated fats in meats to starches and grains.  The medical emissary, Dr. Oz, still supports medical advice that is not based on medical research.

Dr. Oz's Five Food Felons and Why His Choices Are Unhealthy:

"1) Trans fats raise lousy LDL cholesterol and triglyceride levels, lower your healthy HDL cholesterol level and fuel disease-triggering inflammation."  Trans fats are inflammatory and should not be eaten.  New labeling has permitted substantial amounts of trans fats to be added to processed foods and still be labelled "No trans fats."  LDL blood levels reflect inflammation, but artificially lowering the LDL with statins has no impact on heart disease.  Lowering LDL, by lowering inflammation with fish oil and/or repair of gut flora, diet and exercise is effective.

"2) Saturated fat in red meats, poultry skin, full-fat dairy products and palm and coconut oils fuels cancer risk, coronary artery disease, dementia, obesity and diabetes."  Linking saturated fats with heart disease, etc. was never supported by medical research.  Elimination of red meat, removing skin from chicken, avoiding egg yolks, etc. and replacing them with omega-6 polyunsatured vegetable oils has been a major contributor to inflammation and disease.  Full fat milk is the healthful choice, especially for children.  The change was dangerous and is being reversed with new emphasis placed on omega-3 fish oils.

"3) Added sugars and 4) sugar syrups cause the proteins in your body to be less functional and age your immune and cardiovascular systems and your joints. Plus, they disrupt your metabolism and contribute to almost every lifestyle-related malady, including some cancers."  Oz got this right even though they initially promoted high fructose corn syrup (half glucose/oligos) and its evil and even higher fructose sister agave nectar (all fructose/oligos.)  Equally bad, however, are the hyperglycemic starch in breads (including whole grain!) and over cooked pasta.

Gut flora

"5) Refined and processed grains don't contain the fiber or nutrients (contained in 100 percent whole grains) that you need to keep the bacteria in your guts happy, glucose levels regulated, immune system strong and digestion running smoothly."  Dr. Oz and company fail to understand the basics of vitamins, soluble fiber and gut flora.  Grains are not healthy for most people, because of the toxicity of gluten and hyperglycemic starch.  Ultra fine milling and fast commercial bread making eliminate the resistant starch.  "Whole grain" processed foods just add back the insoluble fiber that is considered toxic, because of its phytic acid content.  Grains should just be replaced with whole foods, such as vegetables that contain the soluble fiber that feeds the gut flora that provide all of the needed vitamins and are required for immune system development.

Why Does Dr. Oz Make Health Mistakes?

Dr. Oz has been criticized for promoting foods, supplements, medical treatments, etc. that are not supported by medical research.  While that is true, I think that he is just following the general views of the medical industry and simply doesn't know any better.  Sadly, most doctors don't have the background to read scientific research papers, let alone their own biomedical literature that is rife with scandals of nonreproducibility and inappropriate industry influence.  Doctors find it hard to give valid dietary advice, because nutritionists have false information and celebrity doctors, and their research teams, don't do their homework.  The result is the mix of ancient orthodoxy, industry promotion, alternative medicine and unscientific fads that appears in the media.  Doctors need a scientific background sufficient to answer the essential question posed to health claims, "Does it make sense?"

Health in Diagrams I — Gut Flora and Diet

---All 200 posts here---

This is the first of three posts to summarize my thoughts on diet, inflammation and disease mediated by gut flora.  I decided that I needed to make my points as explicit as possible by putting them down in diagrams and making references to my other posts.  By the time I finish, I will reach my 200th blog post at Cooling Inflammation.

Health in Diagrams II -- Curing Autoimmunity and Allergies

Health in Diagrams III -- Inflammation from Cell to Tissue

Everyone Leaves Out Gut Flora

I want to first explain and diagram my current understanding of the relationship between gut flora (the complex community of hundreds of different types of bacteria and fungi in the intestines) and diet.  My impression is that many people have health problems based on diet, but when they try to heal their health, they fix their diet and see only limited benefits.  Medicine provides only a temporary treatment using dairy probiotics.  The problem is that they failed to fix their gut flora, which was also damaged by their unhealthy diet.  

Health Requires a Match between Diet and Gut Flora

It is a myth that gut flora will just adjust to diet and a healthy diet leads to a healthy gut flora.  

A damaged gut flora lacks necessary species of bacteria.  Antibiotics, for example, can permanently delete dozens of particular bacterial species of gut flora that can only be replaced by reintroducing the missing bacteria by eating those bacteria again.  The missing bacteria may be needed to digest particular foods and the result is food intolerances, commonly mistaken for food allergies.  Antibiotic use frequently leads to autoimmune diseases, that are caused by deficient regulatory T cells of the immune system that develop in the lining of the intestines in response to particular gut bacteria.  The natural source of gut bacteria is eating the bacteria clinging to raw or fermented vegetables.

Antibiotics and Autoimmunity

Diagram Showing the Interaction of Food, Gut Flora and the Immune System

Food is just Protein, Fat and Soluble Fiber

The human body produces enzymes to fully digest proteins, fats and one polysaccharide, starch.  All other parts of plants and animals are edible (fermented by gut flora) soluble fiber polysaccharides or insoluble, undigestible fiber consisting of cellulose or lignin, which together also make up the undigested organic matter, humus, of soil.  Grains are problematical for health, because their starch is readily converted to sugar, i.e. high glycemic, and their fiber is insoluble (not fermented by gut flora) and high in phytate.  Phytochemicals, plant polyphenolics, are of questionable value as antioxidants and are of unexplored importance for their antimicrobial impact on gut flora.

Phytochemicals, Natural Antibiotics and Antioxidants

Polymers (Protein, Starch) are Hydrolyzed by Enzymes to Oligomers and then Monomers (Amino Acids, Glucose)

The stomach mixes protein digesting enzymes, proteases, and starch digesting amylase, with food protein and starch.  Proteases convert the long chains polypeptides, polymers of protein amino acids, into shorter fragments, oligopeptides.  The specific nature of the stomach proteases leaves groups of basic amino acids (lysine, arginine), heparin-binding domains, intact.  These peptides, similar to the defensins of the microvilli crypts, are anti-microbial and work with residual acidity to reduce bacterial growth in the first part of the small intestines.  Pancreatic enzymes then digest the peptides further and the small peptides are ultimately digested by enzymes on the surface of intestinal epithelial cells just prior to absorption.  Similarly, starch is degraded to oligosaccharide amylodextrins, which are then hydrolyzed to glucose at the intestinal surface prior to absorption.  Amino acids and glucose are not normally available to bacteria in the intestines.

Antimicrobial Heparin-binding Domains

Fats are Dissolved by Bile, Digested by Lipase and Absorbed

Fats are triglycerides, i.e. three fatty acids attached to the three hydroxyl groups of glycerol.  Fats are hard to digest, because they form oily droplets.  The droplets are dissolved in the intestines with bile, which is an acidic form of cholesterol, that is produced in the liver and stored in the gall bladder.  Fat in a meal triggers bile release from the gall bladder into the small intestines.  The bile represents a huge reservoir of the cholesterol that is synthesized by the body and dwarfs the cholesterol content of any meal.  Statins decrease body production of cholesterol, interfere with bile/fat digestion and lower lipid cholesterol levels.  (Unfortunately, lowering lipid cholesterol levels has minimal impact on heart disease and the only impact of statins on cardiovascular disease is through weak anti-inflammatory side effects.)  Pancreatic lipase removes two of the fatty acids from each triglyceride.  The fatty acids (a.k.a. soap) and monoglyceride are absorbed by the intestinal cells and reformed into triglycerides that make their way to lymphatic lacteals and are dumped into the blood, where they circulate as chylomicrons surrounded in lipoprotein.  Lipoprotein lipase binds to heparan sulfate on the surface of blood vessels and gradually removes fatty acids, until the diminished chylomicron is absorbed by the liver and exits as a VLDL.  (Note that this is another connection between lipid metabolism and inflammation, since inflammation decreases heparan sulfate on cell surfaces.  Heparan sulfate also mediates LDL binding to cells and amyloid stacking.)

Heparin-binding Domains

Plant Polysaccharides are Soluble Fiber and Food for Gut Flora

All that remains of food after the protein, fat and glycemic starch (glycogen) have been removed in the small intestines are plant cell wall polysaccharides, resistant starch, storage polysaccharides, e.g. inulin, plant beta-glucan, animal glycans, e.g. chondroitin sulfate and heparan sulfate, and insoluble fiber.  The insoluble fiber passes on to be a minor contributor to the bulk of stools and the rest of the polysaccharide is potentially fermentable by gut flora into short chain fatty acids (formic, acetic, propionic, butyric acids).  Some of the polysaccharides are simple repeating units of one or two sugars in long chains, but others are made of five to ten different sugars in complex branched structures.  Simple repeating polysaccharides require just a few different enzymes for their initial synthesis and a few for their digestion.  Thus, resistant starch can be digested by a couple of enzymes into glucose that can be used by most gut flora.  Arabinogalactan, on the other hand, requires a dozen enzymes for plant synthesis and an equal number of hydrolytic enzymes to produce arabinose and galactose, which require further enzymes for metabolism in a select few of species of gut flora bacteria.  

Resistant Starch as a Panacea

Food Intolerance/“Allergy” Indicates Missing Bacteria

Gut flora in general can produce several hundred different enzymes for digestion of diverse soluble fiber,  but most soluble fiber polysaccharides can only be digested by certain bacteria and those bacteria increase, if the complementary fiber is present in the diet.  If a fiber is absent from the diet, bacteria that specialize in digesting that polysaccharide will be eliminated.  People living on diets limited to just a few types of soluble fiber can only digest those fibers and a shift in diet to other types of soluble fiber will lead to symptoms of dietary upset, such as bloating, gas production and food intolerance.  Food intolerances reflect inadequate diversity in gut flora and a mismatch between bacteria and food.  Food intolerances can be eliminated by repairing gut flora and the typical repair solution is eating homegrown fermented vegetables that provide the missing species of bacteria.

Paleo Gut Flora Repair

Immune Cells Develop in Response to Gut Bacteria

Most of the body’s immune cells are in the intestines.  Cells of the immune system are constantly dividing in bones and the thymus gland, developing in the lining of the intestines and migrating to other tissues.  Filamentous bacteria of the gut flora stimulate the development of aggressive immune cells that kill other cells that are infected with pathogens or viruses or are cancerous.  Furrows perpendicular to the flow of food cultivate the growth of Clostridium species that ferment soluble fiber, e.g. resistant starch, and release butyric acid that stimulates the development of regulatory T cells, Tregs.  It is the Tregs that control the aggressive immune cells and prevent attack on self (autoimmunity) or innocuous antigens (allergy).  It appears that merely eating resistant starch, e.g. potato starch, with probiotics that contain butyric acid producing Clostridium bacteria may provide a cure for many autoimmune diseases.

Free the Animal: A Resistant Starch Primer for Newbies

Gut Biofilms Release Vitamins as Quorum Sensing Signals

 The gut flora lines the intestines in numerous biofilm communities, which form from dozens of different species of bacteria that communicate by exchanging molecules called quorum sensing signals.  These signals from the biofilms intimately attached to the lining of the intestines are vitamins.  Thus, healthy gut flora are the major source of vitamins and other sources, such as fruits and vegetables are only needed, if the gut flora is damaged, e.g. by antibiotics.

Dr. Oz, Vitamins, Biofilms

Volume of Stools Reflects Gut Flora Fermenting Soluble Fiber

The bulk of bowel movements, stools, is bacteria, the compressed gut flora that accumulated in the colon while fermenting soluble fiber.  We always hear that we need to eat fiber for regularity, but since insoluble fiber is only a minor contributor to stool volume and it is associated with anti-nutritive attributes, such as the binding and removal of zinc and iron by phytate, the fiber that counts for regularity is soluble fiber.  Regularity results from the fermentation of soluble fiber polysaccharides producing short chain fatty acids, such as butyrate, that are the major source of energy for colon cells.  And the growing bacteria in the colon provide most of the bulk of the hydrated stools.  Inadequate dietary soluble fiber or damaged gut flora, dysbiosis, leave only dehydrated insoluble fiber and compact stools of constipation.  Constipation can result from dehydration or excessive retention, but chronic constipation, even in the presence of adequate dietary soluble fiber, is an indication of damaged gut flora and an increased risk for diseases resulting from deficiencies of Treg production:  autoimmune diseases and allergies.  Constipation and associated autoimmune diseases can be cured by repairing gut flora and supplying adequate dietary soluble fiber.

Milk, Kefir and Gut Flora

Gut Flora Risk and Repair

….All 190 posts here….

The two most important contributors to health are diet and gut flora.  All of the other contributors, such as exercise, genetics, environmental toxins, hygiene, etc. are of minor importance.  A healthy diet, such as The Anti-Inflammatory Diet that I recommend on this blog, is simple and relatively easy to follow after weaning from the Standard American Diet.  One version of the healthy diet is just eating meat, fish, eggs, dairy and plenty of vegetables, but avoiding vegetable oils and grains.  Most people will be healthy with that general diet, but if and only if, they also have a healthy gut flora that is adapted to the food they eat.

Most people make themselves sick by not matching their gut bacteria to what they eat, so let me repeat the main point of this article:

You will get sick if the bacteria in your colon can’t digest your food.

And sick means allergies, autoimmunity, cancer, etc.

Read and Heed or Dead

What Killed American Gut Flora?

There are hundreds of different species of bacteria growing on partially digested food (soluble fiber) in your colon.  Americans are sick, not because they are too poor to buy food, but because they have the worst, i.e. least diverse, gut flora in the world.

Do:  We pick up, recruit, eat new bacteria and repair our gut flora by:

• touching surfaces, people, pets, etc. and putting our fingers near our mouths,
• eating live fermented food, or semi-clean vegetables,
• not cooking/killing/sanitizing all of the bacteria around us,
• eating probiotics and transferring some of their genes to our gut flora.

Don’t:  We wipe out or reduce the diversity of our gut flora by:

• using inappropriate hygiene that kills the bacteria we need for health,
• taking antibiotics that kill gut flora and compromise our immune system,
• trying to eat a wide variety of foods, which is counterproductive and only permits a few varieties of bacteria to survive.

Hygiene Kills Beneficial Bacteria

Nothing comes from nothing…  For bacteria to come out, bacteria must go in.  You have to eat bacteria to extrude them by the pound.  Each day a single bacterium growing and dividing in your gut once per hour will produce a million daughter bacteria (24 doublings, estimate that doubling two, ten times is about a thousand, and 1000X1000= million.)  So if you mixed a milligram (about the size of the period at the end of this sentence) of gut bacteria with ample food, you would have a kilogram (pounds) of bacteria by the end of the day.  Similarly, it takes about a day for a single bacterium applied to a petri dish of nutrient agar to produce a colony weighing about 10 milligrams.  The point here, is that a single bacterium that makes it through the acid bath of the stomach can be a major player in your colon in a couple of days.  This is a very good thing.  We want to kiss babies, because babies systematically vacuum up bacteria from the darkest  of corners and with shameless generosity present them in an irresistible pucker.  We need those bacteria, and so do the babies.  Hygiene, e.g. antibacterial hand soap, bleaching surfaces or closing toilet lids isolates people from potential sources of beneficial gut bacteria. 

Traditional Food is Fermented (with Live Bacteria)

Shockey

In most cultures, extra food is mixed with something like salt or spices to kill local problem microbes and then bacteria are permitted to grow.  The result is fermentation of the sugars available in the food with production of organic acids, e.g. vinegar, that stop the growth of other bacteria that might grow on protein and cause objectionable flavors.  Homemade fermented veggies contain a wide variety of happenstantial bacteria that can adapt to productive gut growth.

Cooking Kills

We cook to dissolve and soften foods.  Meat can be eaten whole and our stomach enzymes will easily digest the protein and fat to provide all of our nutritional needs.  The only plant material that can be digested by our enzymes is starch.  The rest of the plant requires cooking to make the protein available and the remaining carbohydrates, soluble fiber, require digestion by hundreds of different enzymes produced only by microorganisms.  Cooking will release soluble fiber to feed gut flora, but it also kills bacteria, so some raw foods must be eaten to make sure that the gut is always supplied with fresh bacterial recruits.  Cooked or pasteurized foods do not contain live bacteria and are not useful as sources to repair gut flora.

Probiotics are not Gut Flora

Commercial probiotics are made from bacteria used in dairy products (dairy probiotics) or bacteria used to make enzymes in other products, such as laundry detergents.  

These bacteria can be repackaged and sold as probiotics, because they have already been tested for toxicity.  These bacteria don’t normally grow in the gut and if you swallow them, they just pass through.  These “probiotics” can temporarily provide some of the functions of gut flora, because they are bacteria, but they don’t grow in the gut.

Gut Flora are Bacteria Created in the Gut

Gut bacteria produce chemical signals that coordinate the metabolism of food by hundreds of different species of bacteria.  We call these chemical signals vitamins, because humans extract the vitamins from the bacterial biofilms that always line the gut, so humans don’t need to produce their own vitamins.  Gut flora can produce all of the vitamins that we need, so it is not surprising that multivitamins do not provide any health benefit and concentrated vitamins my be harmful by disrupting normal metabolism of gut flora.  Biofilms also promote the exchange of genes between different species of bacteria, so the concept of species does not actually apply to gut flora, where new species are rapidly being created.  A common example of this process is the curing of lactose intolerance by simply eating small amounts of live yogurt for a couple of weeks.  The cure results from the transfer of a gene that produces an enzyme to digest lactose from the yogurt probiotic bacteria to the regular gut bacteria.  The new species, a natural GMO, continues to grow in the gut, digest lactose, and cure lactose intolerance.  The yogurt probiotics just get flushed away and that is why dairy probiotics must be eaten continuously to provide some of the benefits of healthy gut flora.

Antibiotics Kill Gut Flora, Compromise the Immune System and Cause Disease

Antibiotics are a huge benefit in curing and avoiding infectious disease.  Unfortunately, antibiotics can cause lasting damage by killing beneficial species of bacteria of the gut flora.  Loss of essential bacteria is commonly seen as food intolerances (true food allergies are rare) or constipation.  Since gut flora are needed for development of both the aggressive and suppressive parts of the immune system, which occurs in the lining of the gut, then antibiotics slowly lead to loss of function of the immune system that leads to autoimmunity or allergies.  Probiotics typically administered following antibiotic treatments do not repair the gut flora and leave the immune system damaged and prone to autoimmune diseases and allergies.

Variety in Foods Leads to Loss of Diversity in Gut Flora

It may be more entertaining to eat a new cuisine at each meal, but it confuses your gut flora.  Your gut is a river that endlessly moves food from mouth portal to pottie.  Bacteria divide and eddies cast some of the bacteria back to mix with food upstream before inevitably moving with the masses down and out.  Bacteria that don’t multiply as quickly as others eventually become extinct.  Bacteria that grow well on broccoli may wither with onions.  If you continue to eat some broccoli and some onions, then your gut flora will adapt, but if the type of polysaccharides, the soluble fiber, changes continuously, then you will end up with the stunted gut flora of Americans.  Diversity of gut flora is reduced by too much variety in food.

Matching Food to Gut Flora Takes Time

All of the gut problems that people complain about, gas, bloating, diarrhea, constipation, food intolerances/allergies (except gluten and a couple of others), etc. are due to a mismatch between food and the digestive enzymes of gut flora.  Modern food processing retains protein, fat and starch and removes the polysaccharides/soluble fiber that reaches the colon, feeds gut bacteria and produces short chain fatty acids (acetic acid, butyric acid, propionic acid) that feed the colon and reduce inflammation.  It takes time for gut bacteria to adapt to new soluble fiber in new foods by recruiting or creating new bacteria, and this is only possible, if inappropriate hygiene is avoided or if homemade fermented foods are eaten.

Antibiotics, Gluten, Hashimoto's Thyroiditis and Baldness

My impression is that Hashimoto's is caused by a combination of an initial immune attack on the thyroid and incompetent regulatory T cells.  In most cases the immune attack on the thyroid is a secondary consequence of celiac/gluten intolerance, in which anti-transglutaminase antibodies attack transglutaminase bound to gluten in the intestines.  Transglutaminase  is an enzyme that is also produced by the thyroid (and hair follicles) and attack by celiac antibodies can enhance or inhibit thyroid hormone production (or baldness.)  Both Hashimoto's and celiac do not occur if the suppressive part of the immune system, i.e. regulatory T cells, is functioning.  

Antibiotics Compromise the Immune System

The major point here is that antibiotics disrupt normal bacterial biofilms that line the intestines and these healthy gut bacteria are required for development of regulatory T cells.  Compromise of Tregs leads to autoimmune diseases, e.g. celiac, Hashimoto’s and baldness, and also allergies.

Antigens/Allergens Have Basic Amino Acid Triplets

The antigens targeted in autoimmune diseases, e.g. tTG, anti-nuclear, TPO, and allergies form an obvious pattern.  All of these antigens and allergens have simple amino acid sequences (rare patches of three basic/positively charged amino acids) that enhance their presentation to the immune system to produce antibodies.  Nuclear proteins, for example, are frequent autoantigens and most of these proteins interact with nucleic acids (negatively charged) and have predictable patches of positively charged amino acids (arginine and lysine).  Other common autoantigens have basic amino acid (arg/lys) patches, because they interact with phospholipids (also negatively charged.)  Proteins with basic patches, e.g. HIV-TAT or heparanase, are also readily transported into cells and nuclei.  Peptides with these sequences are produced by action of stomach enzymes on proteins, e.g. milk lactoferrin, and are antimicrobial.

Allergies / Autoimmune Diseases Are a Predictable Consequence of Antibiotics

Doctors treat with antibiotics, but they fail to repair damage that they cause to gut flora.  The gut flora of most patients treated with antibiotics, especially those who are most fastidiously hygienic, never fully recover.  Constipation is a common symptom of severe dysbiosis and related immunoincompetence.  Probiotics are gut flora bandaids and do not survive as components of gut flora.

Gut bacteria are also needed for development of the aggressive part of the immune system.  Thus, autoimmune diseases can be treated with even more intense use of antibiotics, that will eliminate the rest of the immune system.  Since all vitamins are produced by gut flora as quorum sensing signals, antibiotics can also produce the exotic symptoms of vitamin deficiencies.

Antibiotics are essential to many therapeutic approaches, e.g. surgical procedures or therapy for chronic Lyme disease, but they must be used responsibly and treated patients must be subsequently tested to ensure a repaired gut flora and a functional immune system have been reestablished after antibiotics.  Long term antibiotic use needs special attention, e.g. deliberate Repair of Gut Flora or a fecal transplant.

Thus, I think that it is most likely that ever increasing antibiotic exposure and processed foods, coupled with obsessive hygiene have led to crippled gut flora (as observed in the simplified gut microbiomes of Americans), a net decline in suppressive Tregs and the observed increase of autoimmunity and allergies.  The competence of the immune system may be a major determinant in the course of infection with a pathogen that can produce chronic infections.

Dr. Oz, Vitamins, Biofilms

Vitamins supplement enzyme action, but they are produced by gut flora for biofilm communication.

Dr. Oz and the general biomedical community promote the idea that vitamin supplements or in foods are needed or improve health. Of course, several research studies show that typical multivitamin supplements or the levels of vitamins in "enriched" foods do not provide improvements in health. Since gut flora produce all of the needed vitamins, this should be no surprise. But why do gut bacteria release vitamins needed for the normal functions of the human body?

Vitamins are Enzyme Cofactors

Vitamins are small molecules that bind to particular cellular enzymes and provide functions that can't be provided by proteins. Enzymes are linear strings, polymers, of about a thousand amino acids. The 23,000 human genes code for the sequence of amino acids in as many enzymes. The amino acid strings fold up systematically into three dimensional balls that bring together chemical groups of the amino acids that can catalyze biochemical reactions. The twenty different amino acids in proteins are limited in the scope of their reactions. Binding of some metabolic products, such as vitamins, expands the types of reactions possible. Vitamins are enzyme cofactors. Bacteria can synthesize all of the vitamins needed for metabolism, but humans can't.

Vitamin D is a Hormone

Vitamin D is not a typical vitamin.  It is not an enzyme cofactor, but rather it is a steroid hormone that is produced in the skin from cholesterol through the action of ultraviolet light. The production of antibacterial peptides in the small intestines, for example, is a response of intestinal cells to vitamin D. Exposing arms and legs to sunlight produces about 10,000 IU of vitamin D per minute. (Typical supplements contain only 1,000 IU.) Production of vitamin D is reduced by skin pigmentation, sunscreen and inflammation. People exposed to daily sunlight for hours in San Diego, for example, may still be deficient in vitamin D, if their production of vitamin D has been shut down by chronic inflammation, as indicated by typical inflammatory conditions, such as arthritis, allergies, inflammatory bowel diseases, obesity, dental/oral infections, prostatitis, thyroiditis and other autoimmune diseases.

Vitamins are Produced by Gut Biofilms

People with healthy, diet-adapted gut flora, can subsist on very limited diets without vitamin deficiency diseases, because all of the vitamins can be obtained from bacteria growing in films coating the lining of the gut. These biofilms are complex communities of dozens of different bacteria and fungi. The bacteria synthesize polysaccharides in which these and other bacteria and fungi become embedded. The biofilms release vitamins that are taken up by intestinal cells to provide the needs of the body.

Vitamins are Chemical Signals for Biofilm Assembly

Bacteria, such as E. coli, do not form biofilms, if they are just grown at low concentrations on laboratory nutrients. If the concentrations of bacteria become very high, however, the bacteria respond by activating genes that coordinate biofilm formation. Bacteria detect the presence of other bacteria by releasing and detecting chemical signals in a process called quorum sensing. The chemical signals used in quorum sensing and biofilm maintenance are vitamins. Thus, human intestines are adapted to exploit the presence of biofilms and vitamin secretion. Humans need not synthesize vitamins, because they are always produced by gut biofilms as an essential biofilm function.

Antibiotics and Multivitamin Supplements

Antibiotic use is known to disrupt gut flora and produce vitamin deficiencies. Killing off healthy gut biofilms with casual use of antibiotics should be anticipated. The medical industry is remiss, however, in not repairing gut flora after medically mandated antibiotic use. Probiotics can temporarily supply some of the functions of the hundreds of bacterial species in each healthy individual, but they do not replace complex biofilms.

 The vitamin production of some of the bacterial species eliminated from the gut by antibiotics can be replaced by vitamin supplements, but supplements may disrupt the normal vitamin/quorum sensing communication and further disrupt biofilms. Thus, vitamin supplements may be unhealthy, if they disrupt biofilms that are necessary for healthy function of the gut-based immune system, which is needed to avoid, for example, allergies and autoimmune diseases.

Major Points about Vitamins, Biofilms and Health

• Health requires gut biofilms to supply vitamins and control the immune system.
• Biofilms produce and use vitamins for maintenance of biofilms.
• Eating vitamins may disrupt normal biofilm formation.
• Antibiotics disrupt gut biofilms and cause vitamin deficiencies and immune system disfunction.
• Biofilm repair requires ingestion of missing bacterial species (150 total) and may be inhibited by excessive hygiene.