Treat the Heart With the Gut
December 30, 2015
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By Dr. Mercola
It's becoming relatively common knowledge that your health is not
just about your body, but rather is the result of its symbiotic
relationship with 100 trillion bacteria and other microorganisms.
Your microbiome is unique to you, like a fingerprint, and represents a
combination of lifestyle factors, genetics, environment, and more.
Your gut microbiome
influences your immune responses and nervous system functioning, and
plays a role in the development of a number of diseases, including
obesity, cancer and heart disease.
In the latter case, research has emerged that bacteria in your gut
may play an integral role in the formation of fatty deposits on your
arteries, leading to atherosclerosis (hardening of your arteries).
Perhaps even more remarkable, now researchers have also figured out a way to stop the process.
Targeting Gut Microbes to Prevent Heart Disease
Research by physician Stanley Hazen of the Cleveland Clinic and
colleagues has shown that certain bacteria in your gut can transform
choline (found in meat and eggs) and other dietary nutrients into
trimethylamine N-oxide (TMAO), which slows the breakdown of
cholesterol.
The higher your TMAO levels become, the more fatty plaques may collect in your arteries, which may promote atherosclerosis and other heart problems.
As The Atlantic recently reported, Dr. Hazen's colleague Zeneng Wang
discovered that the chemical 3,3-dimethyl-1-butanol (DMB) prevents gut
microbes from turning choline into trimethylamine (TMA), thereby
lowering the risk of heart problems.1,2
DMB is a choline-like compound that works by “gumming up” the enzymes
required by the bacteria to digest choline, which stops TMA
production. According to The Atlantic:3
"It takes two to TMAO: Bacteria first transform choline into TMA,
before an enzyme from the host animal changes TMA into TMAO. At first,
Hazen's team tried to prevent the second part of this chain by blocking
the animal enzyme.
They succeeded, lowering TMAO levels in mice and making them
resistant to atherosclerosis. But there was just one problem: disabling
the enzyme leads to a build-up of TMA, which doesn't harm the heart but does smell of rotting fish."
By targeting gut microbes with DMB, the mice, which were bred to be
vulnerable to atherosclerosis, produced less TMAO even when fed a
choline-rich diet. They also had fewer signs of the condition. As
written in Cell:4
"The present studies suggest that targeting gut
microbial production of TMA specifically and non-lethal microbial
inhibitors in general may serve as a potential therapeutic approach for
the treatment of cardiometabolic diseases."
Your Gut Microbes Might Be One Reason Why Eating Red Meat Is Linked to Heart Disease
Your gut bacteria can also metabolize L-carnitine, a substance found in
red meat, eggs, and other foods, and in so doing produce TMAO.
Interestingly,
people with diets high in L-carnitine, i.e. meat eaters, had a gut
microbe composition that was more prone to forming TMAO, while
vegetarians and vegans did not.
Even after consuming large amounts of L-carnitine in a steak or
supplement, the vegetarians and vegans in the study did not produce
significant amounts of TMAO.
Does this mean that you should avoid meat and L-carnitine?
I
believe the answer is a resounding no. The science is very clear that
L-carnitine is required to shuttle fatty acids into the mitochondria to
burn them as fuel. It is an important mitochondrial nutrient and I
personally take a supplement because I don't eat much red meat.
However
I believe healthy non-CAFO red meat can be an important part of a
healthy diet. One just does not want to consume it in excess that almost
everyone does. Anything over 3-4 ounces. and 2 ounces for people
under140 pounds, is far too much protein and will raise mTOR levels.
If
you are a vegetarian, or someone that has a mitochondrial dysfunction
disease then I strongly believe that you should be on a supplement of
L-carnitine, not acetylcarnitine, simple plain L-carnitine.
However, Dr. Hazen and colleagues believe that eating red meat alters
your gut flora in a way that predisposes your body toward TMAO
production, and subsequently, heart disease.5
I suspect this research is flawed as they never really carefully
examined the quantity or quality of meat being consumed. CAFO meat
should be avoided for reasons previously discussed and excessive meat
consumption,
in my view, excessive meat, especially CAFO meat,
will not only contribute to heart disease, but cancer, obesity, diabetes
and neurodegenerative diseases.
U.S Military Using Gut Microbes to Stave Off Disease and More
Rice University synthetic biologist Jeff Tabor received a three-year
grant from the U.S. Office of Naval Research (ONR) to research how gut
microbes may be used to support health on the battlefront.
Synthetic biology involves genetically engineering microorganisms,
making it highly controversial. Tabor's work involves a genetically
engineered E. coli cell that is capable of sensing certain chemical
disturbances.
The ultimate goal is that the cells would then "fire off a battery of molecules to neutralize [the disturbances]."9
The cells would be designed to only survive a matter of hours in your
gut, carrying out their intended purpose and then dying off naturally.
To date, his research in mice has been related to obesity
and other metabolic issues. When mice were fed the modified E. coli
cells, the "sensors" were activated, which means the targeted chemicals
were successfully located.
The research is only in the beginning stages, but plans are underway
to produce GE cells that would carry up to a dozen sensors and be
capable of producing targeted drugs on the spot, including
highly-targeted antibiotics that target bacterial chemicals linked to
obesity, inflammation, and more.10
Manipulating gut bacteria with "synthetic probiotics" might one day be used to treat diabetes, autoimmune disorders, cancer, neurological disorders, obesity, and more.
The U.S. military is hoping that tweaking the microbiome might also
help the armed forces stay healthy in the face of extreme conditions,
stress, disruptions to circadian rhythm (like living on a submarine),
and sleep loss. Scientific American reported:11
" … [T]he Navy may find creative ways to deploy these
synthetic probiotics not just to avoid obesity and its attendant
problems but to quickly shift body weight and metabolism as necessary,
Tabor suggests.
'Imagine you have a team of marines going from a temperate
environment, say, at sea level, to a really cold environment, like up on
top of a mountain, in a short period of time. You want them to be able
to put on some fat quickly to be more robust in the cold environment.'
The solution? A dose of yogurt laced with synthetic probiotics that
change warfighters' metabolism to increase fat for a couple of weeks —
and after that another dose to take it off when they return to sea
level."
The Microbiome Is a 'Key Regulator' of Your Brain and Behavior
Your microbiome affects your heart, your weight, and, yes, also your
brain and behavior. So-called germ-free mice, which have no microbiome
to speak of, have altered behavior and brain function.
In a study by Dr. John Cryan, a neuropharmacologist from the
University College Cork in Ireland, mice without microbes in their
intestines are unable to recognize other mice around them. Dr. Cryan
believes microbes may communicate with the brain and help us be social,
which in turn allows the microbes to spread to others.12
In addition, mice lacking gut bacteria
have been found to engage in "high-risk behavior," and this altered
behavior was accompanied by neurochemical changes in the mouse brain.13 Dr. Cryan believes beneficial microbes could one day be used to treat mental health problems in humans.
He dubbed the compounds "psychobiotics." He told Scientific American, "That
dietary treatments could be used as either adjunct or sole therapy for
mood disorders is not beyond the realm of possibility."14
In one notable study by Dr. Cryan and colleagues, the probiotic Lactobacillus rhamnosus
had a marked effect on GABA levels — an inhibitory neurotransmitter
that is significantly involved in regulating many physiological and
psychological processes — in certain brain regions and lowered the
stress-induced hormone corticosterone, resulting in reduced anxiety- and
depression-related behavior.15
Further, researchers have discovered that the absence or presence of
gut microorganisms during infancy permanently alters gene expression.
Through gene profiling, they were able to discern that absence of gut
bacteria altered genes and signaling pathways involved in learning,
memory, and motor control.
This suggests that gut bacteria are closely tied to early brain
development and subsequent behavior. These behavioral changes could be
reversed as long as the mice were exposed to normal microorganisms early
in life. But, once the germ-free mice had reached adulthood, colonizing
them with bacteria did not influence their behavior.16 As reported by the National Institutes of Health (NIH) Record:17
"Cryan has identified several 'critical windows' for gut
microbiota development and in which it might be most possible to
transform them: early life, adolescence and old age. But, 'on the whole,
it's the early-life period that's instrumental for informing the
microbiome composition, which informs our immune system and may shape
aspects of brain development as well,' he said."
This is one strong argument for having a vaginal birth as opposed to a C-section (if you have the option), as your baby is "seeded" with microbes
as it goes through the birth canal. Breastfeeding further encourages a
healthy microbiome in early life, and once your baby is ready for soft
foods, you can easily provide abundant probiotics in the form of
fermented foods.
However, even though early life is a crucial time for developing a
healthy microbiome, you can make favorable changes all throughout your
life.
How to Nourish Your Microbiome
Your microbiome is vulnerable to your diet and lifestyle and can be harmed by:
| Antibiotics, unless absolutely necessary (and when you do take
them, make sure to reseed your gut with fermented foods and/or a
probiotic supplement) | Conventionally raised meats and other animal products, as CAFO animals are routinely fed low-dose antibiotics, plus genetically engineered grains, which have also been implicated in the destruction of gut flora |
Processed foods (as the excessive sugars, along with otherwise "dead" nutrients, feed pathogenic bacteria) |
| Chlorinated and/or fluoridated water |
Antibacterial soap |
Agricultural chemicals |
In addition to avoiding the harmful aspects above, reseeding your gut
with beneficial bacteria is essential for maintaining proper balance
and achieving optimal physical and mental health. In light of this, here
are my recommendations for optimizing your gut bacteria.
- Fermented foods are the best route to optimal gut health, as long as you eat the traditionally made, unpasteurized versions.
Healthy choices include lassi (an Indian yoghurt drink, traditionally
enjoyed before dinner), fermented grass-fed organic milk such as kefir,
various pickled fermentations of cabbage, turnips, eggplant, cucumbers,
onions, squash, and carrots, and natto (fermented soy).
Fermented vegetables,
in particular, are an excellent way to supply beneficial bacteria back
into your gut. As an added bonus, they can also a great source of vitamin K2 if you ferment your own using the proper starter culture.
We had samples of high-quality, fermented organic vegetables made with
our specific starter culture tested, and a typical serving (about two to
three ounces) contained not only 10 trillion beneficial
bacteria, but it also had 500 mcg of vitamin K2, which we now know is a
vital co-nutrient to both vitamin D and calcium.
Most high-quality probiotics supplements will only supply you with a
fraction of the beneficial bacteria found in such homemade fermented
veggies, so it's your most economical route to optimal gut health as
well.
- Probiotic supplement. Although I'm not a major
proponent of taking many supplements (as I believe the majority of your
nutrients need to come from food), probiotics is an exception if you
don't eat fermented foods on a regular basis.
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