The Microbiome and Obesity

A Healthy Microbiome Keeps You Lean.

Richard H. Bennett Ph.D., Applied Life Sciences LLC

The title of this blog may incite some earnest skepticism as the benefits of a healthy microbiome are aggressively promoted for just about all body systems.   However, rest assured that HATS (human-adapted targeted synbiotics) microbes do have a considerable role in whole-body health and wellness.    Are you concerned about health threats today from the long-term consumption of simple sugars and processed fats?  We should be concerned, as obesity and metabolic syndrome are pandemic.  It is here the gut microbiome plays a huge role, and interventions are within our grasp.

The statistics on obesity and diabetes blaze the headlines regularly.  Walkthrough a public place and try to ignore what is happening.  We are getting huge by overfeeding the wrong microbes in our gut.  Of course, it is not that simple, yet excessive calories from sugars and fats have pervasive effects on the body.  One of the more dire consequences is Metabolic Syndrome and Diabetes.   It is a considerable risk factor for the chronic diseases that ravage people and society. It is one reason that the United States has the highest per capita medical costs of all developed nations (2).

A 2012 scientific review entitled, Colonic flora, probiotics, obesity and diabetes, Dr. Paul Marik (1) provides some powerful insights into the microflora and its role in lean and not so lean people. From previous blog postings, we note that the gut is populated with ten trillion microbes.  Ninety percent of these are of the Bacteroides and Firmicutes group or phyla.   It is these two groups that our diet and other factors profoundly influence their populations. Diet affects the type of bacteria in the gut and their metabolic functions.   Some messengers or metabolites of these functions, in turn, influence the metabolism toward weight gain from fat creation.  Other messengers promote leaner body mass through unique metabolic pathways.

We evolved and have adaptations for periods of food scarcity.   Today we consume an abundance of inexpensive energy-dense foods.  These "junk" foods are packed with sweet, addictive simple sugars and fats.   At the same time, our diets are virtually devoid of both soluble and insoluble fiber.  As such, the diet promotes the Firmicutes and drive their metabolism that promotes the caloric energy to fat storage. The third whammy is the microbial promotion of host cell genes that enhance fatty acid absorption, fat creation (lipogenesis), and storage.  Obese people have far more Firmicutes and few Bacteroides.  After a long period of fat and carbohydrate-restricted diets, the ratio resembles that of lean people.  The sugar fermenting Firmicutes decreased quite significantly.

Whole foods high in complex carbohydrates, fiber, and soluble fiber, some of which have prebiotic functions, have the opposite effect on microbes and the utilization of dietary calories. In particular, the Bifidobacteria were far more numerous in people with high fiber diets.  Recall, the Bifidobacteria inoculate neonates during standard vaginal delivery.  These bacteria thrive on the prebiotic carbohydrates naturally occurring in colostrum and milk.   Overweight mothers have fewer Bifidobacteria to provide to the newborn, and just maybe one reason some infants tend to mature into heavy adolescents.

The gut and its microbes play a huge role in the creation of inflammatory mediators and whole-body inflammation syndromes.   Imbalance of the microbiome or dysbiosis promotes gram-negative bacteria growth.   These bacteria produce endotoxins.  It is endotoxins that can cause sepsis and death during severe infections.  People with low-level endotoxemia risk systemic and liver inflammation.    The metabolites of Bifidobacteria, specific short-chain fatty acids improve the intestinal barrier and reduce endotoxin absorption.  A high fiber diet combined with HATS Bifidobacteria may be our best ally combating Metabolic Syndrome.

Figure 1. How high sugar low fiber diet alters microbes and health

   

The diet promotes endotoxin producing bacteria and causes leaky gut allowing the toxin to be absorbed and target all organs in the body.

Synbiotics such as Preobiotic contain  HATS microbes with known and documented metabolic and anti-inflammatory actions.  When combined with low glycemic carbohydrates (carbohydrates that do not significantly raise blood sugar) and a lower-fat diet has the distinct potential to help prevent and reverse the ill effects of the Western Diet.

This recommendation is useful and of minimal cost, yet the medical community is reticent to recommend it.  Absent an FDA approved Synbiotic drug, doctors are insecure about this simple regimen, all the while prescribing expensive “statins” and other drugs approved to treat the signs of metabolic syndrome.  These drugs come with a myriad of documented adverse side effects (3)

A healthy microbiome diet costs less than the junk food diet and well researched synbiotic cost less than a Statin or other 

drugs used for metabolic syndrome, so what are we waiting for?

References

(1)         Marik, P. E., 2012, Colonic flora, probiotics, obesity, and diabetes. Frontiers in Endocrinology 3: article 87

(2)       https://data.oecd.org/healthres/health-spending.htm

(3)        Adverse effects of statins BMJ 2014; 348 doi: https://doi.org/10.1136/bmj.g3306

Sneeze, Wheeze, and Cough: HATS Probiotics Improve Homeostasis of the Upper Airways.

Sneeze, Wheeze, and Cough: 

HATS Probiotics Improve Homeostasis of the Upper Airways.

R. H. Bennett Ph.D., President Applied Life Sciences LLC

Those of us that suffer the constant frustrations of sneezing and wheezy airways take no consolation that more and more people have joined this club against their will.  The homeostatic or balancing forces of our physiology are off kilter for increasing numbers of young and old alike.

The concept of homeostasis or the balancing controls of our physiology is key to our understanding of how the microbiome works.   We must stop thinking about how a product, even a good HATS probiotic can be used to treat disease conditions that result from upper airway inflammation.   That is just not how the ubiome or good microbiome works.   It works by continuously sending mediator signals into the body to sustain homeostasis, even when forces arise to knock it off kilter.

The concept of dysbiosis is quite clear now, after a decade of microbiome research.  External forces, such as a diet high in simple sugars and fat, antibiotic and other medication usage and garden-variety stress, act singularly and in combination to negatively alter the microbiome.  This altered and less than an optimally functional state is called dysbiosis.

Now consider the indignity of chronic nasal and upper airway allergies.  This can be a big annoyance for some and for others so severe, just breathing become hard and frightening.   Yes, the nasal cavities have a microbiome of their own, and it appears the specific strains of microbes in the nares help prevent chronic bacterial sinusitis.  Yet the real link to airway inflammation and the microbiome is in the gut.

Figure 1. Allergy and the TH balance.

(National Asthma Education and Prevention Program 2007)

Gut dysbiosis creates mediators that send signals to the immune system in the gut. They shift the immune balance toward inflammation via the TH1/TH2 axis (Sandilya 2011).  The ongoing TH2 dominance caused by dysbiosis eventually signals the antibody or humoral arm of the immune system to shift toward the allergy end of that spectrum.   As a result, we make more allergy antibodies called IgE to house dust mites, grasses, pollens and the like.   The interaction of these allergens with the antibodies sets off more mediators that can trigger an allergy attack or worse yet send the airways into a mucus flooded spasm.   Some asthma attacks are asphyxiating frightening and without emergency treatment can be life-threatening.

Researchers found that the HATS probiotic L. Rhamnosus GG when administered intra-nasally in mice prevented allergic responses to Birch pollen (Spacova 2018).  The nasal probiotic appears to work at the cellular level to impede the mechanisms of allergic inflammation.

 We are not suggesting that people should irrigate their nose with probiotics at all. However, when HATS inoculated foods bath the throat, there is a reasonable likelihood that some microbes will colonize the upper airways.  More to the point, however,  HATS probiotics in the gut can restore ubiosis and reduce the inflammatory mediators of allergy.

Studies using orally administered L. plantarum NCIMB8826 increased production of IgG over IgE and produced Interferon-gamma.  This clearly suggests a shift away from TH2 towards TH1 and thus a reduction of allergic potential (Toh 2012).

Another way oral HATS probiotics decrease allergic potential is by helping to maintain the integrity of the gut epithelial barrier.  Dysbiosis is associated with “leaky gut syndrome."  At the cellular level junctions between cells part ever so slightly and allow inflammatory mediators and, in some cases,  inflammatory bacteria like E. coli to invade.  As the bacteria are attacked by immune cells, it may release endotoxins, and these toxins trigger a cascade of events signaling inflammation and the shifts toward TH2 dominance.

Figure 2. Microbiome health has profound influences on the gut and the entire system. (Martens 2018)

In a mouse model of colitis, L. rhamnosus CNCM I-3690 helped to maintain the epithelial barrier Tight Junctions via a protein called occludin (Laval 2015). Thus, fewer penetrating inflammatory mediators gain access through the intestinal barrier and decreased TH2 shift results.

It may seem counter-intuitive that a HATS probiotic working in the gut can benefit the homeostasis of the upper respiratory system.  Yet each day we learn how the microbiome of the gut profoundly influences the homeostasis of almost all body systems.

As we have seen in previous HATS Blog posts that for the newborn more factors work to maintain the balance of the immune response.  Thus, those products that add colostral peptides to the formulation get even greater homeostatic benefits.

For those that curse the wheezes and the sneezes, it is time think about the gut, its microbiome, how it is nourished or abused and how a HATS probiotic may help restore balance to a system that has long been out of kilter.  Restoring balance may take some time so be patient, and it is likely one day, you too will say, you know what, I have been breathing a whole lot better lately.

-----End-----

References

National Asthma Education and Prevention Program, Third Expert Panel on the Diagnosis and Management of Asthma. Expert Panel Report 3: Guidelines for the Diagnosis and Management of Asthma. Bethesda (MD): National Heart, Lung, and Blood Institute (US); 2007

Laval L, Martin R, Natividad JN, et al. Lactobacillus rhamnosus CNCM

I-3690 and the commensal bacterium Faecalibacterium prausnitzii

A2-165 exhibit similar protective effects to induced barrier hyperpermeability

in mice. Gut Microbes. 2015;6:1-9.

Martens K, Pugin B, De Boeck I, et al. Probiotics for the airways: Potential to improve

epithelial and immune homeostasis. Allergy. 2018;00:1–10.

Shandilya UK, Jadhav S, Panwar V, Kansal VK. Probiotics: potent

immunomodulatory tool against allergy. Probiotics Antimicrobe Proteins.

2011;3:151-158.

Spacova I, Petrova M, Fremau A, et al. Intranasal administration of

probiotic Lactobacillus rhamnosus GG prevents birch pollen induced

allergic asthma in a murine model. Allergy. 2018; https://doi.org/10.

1111/all.13502

Toh ZQ, Anzela A, Tang ML, Licciardi PV. Probiotic therapy as a

novel approach for allergic disease. Front Pharmacol. 2012;3:171.