The Ultimate Human with Gary Brecka - 96. The MTHFR Gene: Why Your Vitamins Might Be Useless (And What to Do)
Episode Date: September 12, 2024Did you know that nearly 44-60% of the population could unknowingly carry a gene mutation that impacts their health in significant ways? The MTHFR gene mutation plays a critical role in how our bodies... process folic acid, which is essential for various bodily functions, from brain health to pregnancy. If your body can’t properly convert folic acid into its active form, 5-Methyltetrahydrofolate, it can lead to a range of issues like infertility, miscarriages, ADHD, mood disorders, and digestive problems. In this episode, Gary Brecka reveals studies on how personalized supplementation can be the key to unlocking better health for you! Read the Journal of Clinical Medicine’s full article titled “Folate Insufficiency Due to MTHFR Deficiency Is Bypassed by 5-Methyltetrahydrofolate” here!: https://bit.ly/3Bd0TQU 00:00 Intro 01:36 Supplementing for Deficiency 04:10 Methylation 06:17 MTHFR Gene 07:48 5-Methyltetrahydrofolate 10:36 S Phase Arrest 15:43 Factors Influencing Folate Levels 22:15 Genetic Polymorphism 23:28 Government Intervention on Folic Acid Addition to Grain Products 29:45 5-Methyltetrahydrofolate Bypassing Folate Insufficiency Get weekly tips from Gary Brecka on how to optimize your health and lifestyle routines: https://bit.ly/4eLDbdU PLUNGE - Use code “Ultimate” for $150 off your order of the best cold plunge & sauna in the US: https://bit.ly/3yYE3vl EIGHT SLEEP - Use code “GARY” to get $350 off Pod 4 Ultra: https://bit.ly/3WkLd6E ECHO GO PLUS HYDROGEN WATER BOTTLE: https://bit.ly/3xG0Pb8 BODY HEALTH - Use code “ULTIMATE20” for 20% OFF YOUR ORDER: http://bit.ly/4e5IjsV Discover top-rated products and exclusive deals. Shop now and elevate your everyday essentials with just a click!: https://theultimatehuman.com/amazon-recs Watch “The Ultimate Human Podcast with Gary Brecka” every Tuesday and Thursday at 9AM ET on YouTube: https://bit.ly/3RPQYX8 Follow The Ultimate Human on Instagram: https://bit.ly/3VP9JuR Follow The Ultimate Human on TikTok: https://bit.ly/3XIusTX Follow The Ultimate Human on Facebook: https://bit.ly/3Y5pPDJ Follow Gary Brecka on Instagram: https://bit.ly/3RPpnFs Follow Gary Brecka on TikTok: https://bit.ly/4coJ8fo Follow Gary Brecka on Facebook: https://bit.ly/464VA1H SUBSCRIBE TO: https://www.youtube.com/@ultimatehumanpodcast https://www.youtube.com/@garybrecka Download “The Ultimate Human with Gary Brecka” podcast on all your favorite platforms: https://bit.ly/3RQftU0 The Ultimate Human with Gary Brecka Podcast is for general informational purposes only and does not constitute the practice of medicine, nursing or other professional health care services, including the giving of medical advice, and no doctor/patient relationship is formed. The use of information on this podcast or materials linked from this podcast is at the user’s own risk. The Content of this podcast is not intended to be a substitute for professional medical advice, diagnosis, or treatment. Users should not disregard or delay in obtaining medical advice for any medical condition they may have and should seek the assistance of their health care professionals for any such conditions. Learn more about your ad choices. Visit megaphone.fm/adchoices
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The most important process that human beings go through 300 billion times a day is a process
called methylation. One of my most passionate topics and that is the most common gene mutation
in the world. It's called the MTHFR gene and what this gene does is it takes folate and synthetic
folic acid, these two forms of vitamin B9, and it converts them into the active form. Both go
through the same process of being broke down and converted into the usable version called
5-methylfolate. 5-methylfolate has the fast pass ticket to your cellular biology so that that
micronutrient goes directly into the cell at a tenfold increase and allows your cellular biology
to function normally. You remember when you're at Disney World and you're in the FastPass line
and some bozo comes blasting by your family and just gets right in the ride in front of you?
That's what 5-methylfolate does to cellular biology. I want the humanity to understand
we are not as diseased and pathological as we think. We could be nutrient
deficient. We should stop supplementing for the sake of supplementing, and we should start
supplementing for deficiency. And by supplementing for deficiency, what I mean is...
Hey guys, welcome back to the Ultimate Human Podcast.
Today is a podcast short on one of my most passionate topics,
and that is supplementing for deficiency and not just the sake of supplementation.
Please, if you are considering becoming pregnant,
if you're a young woman and you are considering having a child,
if you have a child that has ADD or ADHD,
or you're somebody that's affected by ADD or ADHD or OCD, or you or a family member is suffering
from hypertension, I have a clinical study that is a must-share. I hope that you forward this
podcast short to every one of your pediatricians and every one of your OBGYNs because we are finally going to end the debate
on whether or not supplementing with methylated nutrients,
and to be specific, these are the forms of nutrients
that are already broken down for your body,
and whether or not this supplementation
can have a massive impact on your health,
directly impacting things like attention deficit disorder,
attention deficit hyperactivity disorder, infertility, repeated miscarriages or multiple
miscarriages or trouble getting pregnant, and something called postpartum depression,
which yes, can begin during pregnancy. And so many women are affected by this. So many men
are actually affected by this gene mutation that causes behavioral changes,
that causes mental changes, that causes severe gut disruption. Remember, the pace of our gut,
the pace at which our gut is moving is just as important as the contents. So if you're one of
those people or you know somebody who's been suffering from gut issues and they've been down
the road of testing their gut biome, they've been down the road of food allergy testing.
They've been down the road of food sensitivity testing
and nothing seems to work.
They're still suffering from gas, bloating, diarrhea,
constipation, irritability, cramping,
all of these myriad of symptoms
that are under the definition of irritable bowel syndrome.
Please listen to this podcast
and those young women that have an OBGYN,
please forward this to your OBGYN because this
could make a material difference in the health of your pregnancy and the health of your baby once
it's born. So I have often argued that we should stop supplementing for the sake of supplementing
and we should start supplementing for deficiency. And by supplementing for deficiency, what I mean
is that very often we are nutrient deficient. We're not as diseased or as
pathological as we think we are. We are missing vital nutrients that is causing the body to behave
abnormally and leading to the expression of disease. In other words, if you have attention
deficit disorder, you're not deficient in Adderall. You're not deficient in Ritalin. You're not
missing a chemical or a synthetic
or a pharmaceutical, you may very well be nutrient deficient. The most important process that human
beings go through 300 billion times a day is a process called methylation. Methylation is the
process where we take the majority of all nutrients that enter our bodies, vitamins, minerals, amino acids, nutrients of any kind,
and we convert them into the usable form.
I always use the analogy
that we pull crude oil out of the ground,
but you cannot put crude oil into your gas tank
because the car doesn't understand that fuel source.
You see, crude oil has to be converted.
It has to be refined into gasoline
for the car to use that fuel source.
Human beings are no different, but all kinds of vitamins, minerals, amino acids, proteins,
carbohydrates, fats of all kinds into the body.
And then we assume that the body can take those and turn them into the usable form.
And if it can't, then what happens is it leads to a deficiency.
It is this deficiency that very often leads
to the expression of some of the most common ailments
that we are suffering from in mankind.
You know, my message is a message of hope.
It's a message that if we put the right raw materials
back into the human body,
we can see and thrive in ways we never thought possible.
Most of you watching this podcast
are walking around, in my estimation,
at about 55 or 60% of your true state of normal.
And what I mean by your true state of normal is you might not have any idea how good you would feel if you just put the right raw materials,
if you knew what was missing from your body, and you put the right raw materials back in your body.
We have seen this over and over and over again with vitamins,
minerals, amino acids, fatty acids, omega-3 fatty acids. The human food supply, our soil,
has become so depleted over the last few years, and our food supply so infested with chemicals,
herbicides, pesticides, insecticides that are disrupting our cellular biology, that finally
the time has come for us to supplement in ways
that can reduce the expression of many of these conditions. And I've long since held that we are
not as diseased or pathological as we think we are. We are nutrient deficient. So let's begin.
Today's discussion is about one of my most passionate topics, and that is the most common
gene mutation in the world. It's called the MTHFR gene. I know
if you look at MTHFR, what you're thinking, no, it does not mean the gene. It means methylene
tetrahydrofolate reductase. Now that doesn't sound like it's important to you, but it's very
important. 44 to 60% of the population is estimated to have some form of this gene variant.
And what this gene does is it takes folate,
which is the natural form of folic acid,
and synthetic folic acid,
which is a laboratory-made chemical.
Understand that you cannot find folic acid
anywhere on the surface of the earth.
It does not occur naturally in nature,
but it takes these two forms
of vitamin B9 and it converts them into the active form. So remember that folate that you get from
green leafy vegetables in a healthy diet and folic acid, which you can get from supplementation,
which is the first line of defense in the United States against neural tube defects in pregnant
women. Both of these compounds enter the cell,
but before they are used,
they are the crude oil entering the cell.
Before they are used,
they have to be converted into the gasoline
so the body can recognize it.
So folic acid and folate, natural form and synthetic form,
both go through the same process of being broke down
and converted into
the gasoline version, the usable version called 5-methylfolate. And this is where our journey is
going to begin today. Because whether or not you are supplementing with the reduced form or with
the non-active form of folic acid or even dietary folate makes a major difference in your cellular biology.
And these supplements are dirt cheap,
they are very inexpensive,
and they very well could change the trajectory of your life
if you are suffering from any of the ailments
that I named in the beginning of this podcast.
So there is a research study, a clinical study.
I almost shed a tear when I saw this
because it's proved everything that we have seen
in clinical practice over the last 10 years.
You know, our clinic director is a board certified OBGYN,
Dr. Sarda, she has delivered 9,000 babies.
She's a regenerative medicine doctor.
She has two master's degrees.
She's constantly educating herself.
And she and I have stood at the top of the mountain
and beaten our chest about the need to get folic acid
out of the diets of people with MTHFR, this very common gene mutation, and supplement with the necessary micronutrient
called methylfolate. So this experiment, not experiment, this clinical study, which was
completed in 2020 and published in 2024 in the Journal of Clinical Medicine, a very renowned
journal, really highlights what happens at a cellular level when
our body is deficient in something called methylfolate, specifically 5-methylfolate.
So let's begin this journey. This study starts by talking about adequate levels of folates are
essential for homeostasis in the organism, meaning in human beings, for the prevention of congenital
malformations, including neural tube defects, and the salvage of predisposed
disease states. What does it mean to salvage a predisposed disease state? It means that if you
have a predisposition because of a genetic mutation or a genetic anomaly, the presence of a genetic,
the expression of a gene, that these predispositions do not have to be your destiny.
The BRCA gene does not always mean that a woman is going to get breast cancer. The presence of MTHFR does not mean that you're destined to have
ADD or ADHD or OCD or manic depression or bipolar, or that you're going to end up with cardiovascular
disease, or that you're going to end up with a higher incidence of cancer, all of which are
linked to this gene mutation. The question is why? Because this gene provides for one of the most important
active nutrients in the human body. And so this study goes on to examine how the cellular biology
depends on the genetic predisposition, which is meaning whether you have MTHFR or you don't.
And therefore, a pharmacogenetic approach to individualized supplementation or therapeutic
intervention is necessary for optimal outcome. Pharmacogenetic means that we can actually intervene not with
pharmaceuticals, but with supplements to offset the expression of this gene. This is really exciting
stuff. So depriving cells of folate leads to reversible S-phase arrest. Now, what's S-phase
arrest? First of all, I want you to think of DNA as a ladder. You know, you climb up and down this ladder. You take this ladder, you twist it, and you shove it into the nucleus of every single cell in the human body. We have an estimated 32 trillion cells in our body, and That's called transcription. Those messages are called mRNA. If you heard of the mRNA vaccine,
it is a synthetic copy of a message from your DNA to make a certain protein, a messenger RNA.
It also unzips right down the center and creates an exact copy of itself. Okay, so that is called
replication. This is why one cell in your body
can divide and become two identical cells.
So when this ladder unzips,
just like the zipper on your jacket,
as it unzips, it's very important
that these teeth line up when you zip it up again.
So imagine this ladder
starting to stitch itself back together.
All of these amino acid sequences in this ladder starting to come back together.
Well, what if you are deficient in a certain raw material, specifically methylfolate, 5-methylfolate?
Then what happens is these two rungs do not line up.
When they don't line up, the cell enters something called S-phase arrest.
Now, this is a protective mechanism so that genetic mutations don't promulgate,
so that cancers and viruses are silenced,
so that if an impaired DNA has a sequence that is missing,
it doesn't just continue to divide.
This is a very good thing in our cellular biology.
It's the checks and balance system that God designed
to make sure that a limited number of mutations
will ever be expressed.
And if you have something really genetically deficient
in your DNA, that it doesn't continue to express itself.
However, when methylfolate, 5-methylfolate is missing,
this cell goes into, or the DNA goes into
something called S-phase arrest.
Here's the interesting point.
S-phase arrest is reversible.
How is it reversed?
In this case, it is reversed by supplementing
with 5-methylfolate, not folic acid, 5-methylfolate.
Depriving cells of folates
leads to this reversible S-phase arrest.
Since 5-methylfolate, the gene mutation in MTHFR,
is the key enzyme in the biosynthesis of the active form,
we evaluate the relevance of this MTHFR gene mutation
against people that do not have the MTHFR gene mutation.
Here is really, really an interesting point.
Folic acid supplementation resulted
in a two and a half fold increase in 5-methylfolate,
meaning if you supplemented with folic acid,
there was a 2.5 fold increase intracellularly in 5-methylfolate,
the active form. So the cell was able to take the crude oil, folic acid, convert it into the
gasoline, 5-methylfolate, 2.5-fold increase in intracellular concentration if you did not have
the gene mutation MTHFR. 44% of the population has this
gene mutation. 44% of women have this gene mutation, which means 44% of young women that
are looking to get pregnant. 44% of children that have attention deficit disorder, hyperactivity
disorders, that have obsessive compulsive disorders, that have learning disabilities,
that have deficits in attention and inability to pay attention, 44% of children that have autism.
And the question is, what happens when folic acid is supplemented in somebody without the gene
mutation? Well, you have a two and a half fold increase in this necessary metabolite. However,
when these cells were exposed to 5-methylfolate, let me back up for a second. So in the MTHFR gene
population that does not have this genetic mutation, there was a two and a half fold increase. In the population that had MTHFR, when they supplemented with folic acid, there was a zero
fold increase in five methylfolate. I cannot emphasize that enough. Whether you're eating
dietary folate and eating a good, clean, healthy diet, and I would maintain that it's really hard
to do that based on the depletion in our soil, or you are supplementing with folic acid, if you had the MTHFR gene mutation, there was a zero-fold increase in
the active metabolite. Zero. When they took the cells that had the MTHFR gene mutation and they
supplemented with 5-methylfolate, there was a 10-fold increase in the intracellular levels of the necessary metabolite.
That cannot be overlooked. This ends the discussion on whether or not pregnant women
should supplement with folic acid or 5-methylfolate. And I will maintain that you should supplement
with a methylated multivitamin. These are the same price as regular off-the-shelf multivitamins,
but make an enormous difference in your cellular biology. I'm so passionate about this project.
I'm like talking to myself. I'm writing a book about genetic mutations and simple supplementation
and how it can just change the trajectory of your life. I wrote 15 additional pages just because
of this study. And I'm so happy that this study came. I'm going to fly to Israel and hug this
scientist. So there are three main factors that are influencing folate levels in individuals,
including dietary intake.
Most individuals are not getting the right amount of folate from their diet.
But even if you are a healthy eater and you're getting the right amount of folate,
if you have a genetic predisposition, this can significantly impair,
if not completely impair, your ability to process folate.
And if you're using certain medications,
we know that methotrexate, other corticosteroids
actually block the metabolism of folic acid.
So here's the interesting thing.
If you have rheumatoid arthritis,
they put you on methotrexate.
They know that methotrexate blocks the conversion
of folic acid into 5-methylfolate.
So what do they give you?
More folic acid, which is not going to convert
into the active form 5-methylfolate. So if you are give you? Morpholic acid, which is not going to convert into the active form 5-methylfolate.
So if you are one of those people
that is taking a corticosteroid,
if you have rheumatoid arthritis
and you're on a methotrexate
or other kind of corticosteroid,
or you're regularly taking prednisone or methylprednisone
or any of these other corticosteroids or any inflammatories,
you should seriously consider talking to your doctor
about supplementing with 5-methylfolate.
Here is the most interesting thing, and I get really wound around the axle on this.
So this diagram here is describing, it's showing you a visual difference between dietary folate intake. So you see all those vegetables up there at the top of that diagram? This is a person
eating a healthy diet. Now, let's just assume for a second you don't have the gene mutation MTHFR.
Let's make that assumption for one moment. If you do't have the gene mutation MTHFR. Let's make that assumption for one moment.
If you do not have the gene mutation, the folate in your diet passes through the cell
membrane, enters the folate cycle.
It goes through 10 conversion steps.
You'll see at the very bottom of this diagram, it ends in the conversion of the active metabolite
5-methylfolate.
That's the mother load.
That's the gasoline. That is-methylfolate. That's the mother load. That's the gasoline.
That is the driver of our cellular biology.
It is one of the most necessary methylated nutrients
in the human body.
It is absolutely essential to good cellular health
and to the function of our cells.
It is very early in the methylation cycle,
which means that this nutrient is actually used
to then feed other genetic enzymes and
reduce levels of homocysteine, which is directly linked in many cases to hypertension.
Maybe one of the reasons why 85% of all hypertensive diagnoses in America are idiopathic
of unknown origin.
Well, the origin is known.
We're just not addressing it.
So when you look at the incidence of hypertension,
the increased incidence of hypertension
in people that have this MTHFR gene mutation,
you might wonder, well, what is the link
between MTHFR and hypertension?
Well, the link is the deficiency in this micronutrient
that then enters something called the homocysteine cycle
and helps lower homocysteine.
Well, if you can't lower homocysteine, it rises.
When it rises very often, it causes a vascular constriction, which drives up blood pressure.
I'll put a link to that study as well. If you have an impaired homocysteine cycle,
then you have a deficiency very often in something called L-methionine. L-methionine then goes up
and enters another cycle in the brain, which helps to break down catecholamines, which are
fight-or-flight neurotransmitters.
These people that are suffering from bouts of anxiety that is unexplained by their environment,
where they look into their outside environment and they go, I don't know why I'm feeling the
presence of a fear without the presence of a fear. I don't know why I lay down to go to sleep at
night and my mind is always awake and I'm body tired, but I'm mind awake. I don't know why I'm
so anxious all the time. I don't know why sometimes when I lose my temper, I can't get the train back into the
station. I just, the cork pops and I cannot put it back in the bottle. This gives an explanation
between the mental conditions related to nutrient deficiencies. If you can't break down catecholamines,
catecholamines rise. Catecholamines are fight or flight neurotransmitters. They give
you the sensation of fear. They give you the sensation of anxiety. They give you the sensation
of anxiousness. So what if we could normalize a lot of these quote unquote mood disorders
with micronutrients? This is what's so exciting to me because I want the humanity to understand
we are not as diseased and pathological as we think. We could be nutrient deficient.
That is a really exciting vantage point.
And then this methionine then breaks down and turns into something called SAMe as a denosylmethionine.
SAMe is greatly linked to all kinds of mood disorders
and mood dysregulation, things like mood numbness.
There are tons of people out there
that live decades of their life in a mood numb state.
And because they are just walking
around at a C or a C plus, they never seek any intervention for it. They might not know why they
can't feel certain moods. You know, they're on a vacation of a lifetime in a place they've always
wanted to go with the family they love the most. And they just can't get into the mood. I mean,
they look around and they go, I should be elated right now. Like I'm intelligent enough to know
that I should be really happy right now, but I'm not. I'm intelligent enough to know that I'm
attracted and in love with my spouse, but I have no libido. I'm intelligent enough to know that
there's nothing consequential enough going on in my life to cause me to be in this depressed state,
but I don't know why I feel like this. Could very well be linked to your nutrient deficiencies.
So let's go back to this diagram. This is really so the folate which is the natural form found in the vegetables and healthy
diet passes through the cell membrane just like folic acid does it goes through these 10 conversion
steps and becomes 5-methylfolate look at what happens to 5-methylfolate 5-methylfolate butts
in line you remember when you're're at Disney World and you're in
the FastPass line and some bozo comes blasting by your family and just gets right in the ride
in front of you? That's what 5-methylfolate does to cellular biology. It doesn't wait in line.
It has an extra FastPass that allows it to skip the entire sequence of gene mutations and jump
right in the cart. It has the fast pass ticket to your
cellular biology so that that micronutrient goes directly into the cell at a tenfold increase
and allows your cellular biology to function normally. And this is really, really exciting
stuff. Your OBGYNs should not be supplementing you with folic acid unless they know whether or not you have the gene mutation MTHFR.
And if you do have it,
absolutely need 5-methylfolate.
But guess what?
If you don't have it, 5-methylfolate still works.
That's the exciting thing about this micronutrient.
In addition to dietary intake,
plasma levels of folate are also modulated
by genetic predisposition, period.
So that is a fact now, no longer up for debate.
I get a lot of flack for this on social media
saying that I can just, I'm promulgating nutrients
and saying that they could lead to the expression of disease,
but here is your direct link to that.
The most important genetic polymorphisms
that decrease activity of MTHFR
are two common functional polymorphisms.
An estimated 44% of the population has this genetic
polymorphism. An increased need for folate is linked to adolescence, especially prepubescent
adolescence during the developmental cycle of the brain. Lactation, there are so many pregnant
mothers that for some reason cannot lactate, they cannot actually produce breast milk postpartum
after delivery. There are so many mothers whose depression begins during their pregnancy,
and it starts with their supplementation with their prenatal vitamin. They're listening to
their doctor. They're doing the right thing. They want to have a healthy pregnancy. So they take the
prenatal vitamin with 1,400 or 1,800% of the daily allowance of folic acid, and they start to go nuts.
They start to feel depressed.
You show me the study linking elevated pregnancy hormones
to postpartum depression, and I'll say that I'm wrong.
I have been unable to find one to date,
but there are direct links
between the MTHFR gene mutation and postpartum depression,
which, by the way, can begin during pregnancy.
It's also linked to malabsorptive disorders and diabetes,
as well as
an increased incidence of cancer. And so folate deficiency is a serious public health risk,
and it's linked to severe congenital malformations. So in 1998, here comes the government intervention,
guys. What did Ronald Reagan say? The nine most dangerous words in the human language are,
I'm from the government and I'm here to help. Okay, well, here it comes. Here comes the help. So in 1998, to combat this risk, the U.S. Food and
Drug Administration, one of my favorites, required the addition of folic acid to enrich grain
products such as bread, pasta, rice, cereal, and flours. This is where you find fortified or
enriched foods. They are sprayed with the chemical folic acid. I'm going to remind
you, this is a chemical. It is not found anywhere on the surface of the earth. You can't find this
anywhere in mother nature. So we started to infuse this into the food supply. Now for people without
the MTHFR gene mutation, it had a positive result. I'm not saying that this was a sinister plan.
We actually saw a decline in neural tube defects, which is what your OBGYN is going to tell you. Well, when you supplement with folic acid, there is a decline in neural tube defects.
This is very true in the population without MTHFR. What about the other 44% of us? What about
the other 44% of women out there trying to get pregnant, having repeated miscarriages? What
about the other 44% of women out there supplementing with folic acid and getting postpartum depression? What about all the 44% of women out there that are supplementing
with prenatal vitamins and still having repeated miscarriages? It's very likely, I'm not going to
say 100% of the time, but very likely linked to this genetic predisposition. I think all OBGYNs
should be testing patients. I think Dr. Sartor would agree with this, testing them for this
MTHFR gene mutation. So it became a public health risk.
This measure, as well as high-dose folic acid supplements prescribed for at-risk population,
have the risk of causing excessive folic acid intake and have unfavorable developmental
consequences, such as increased risk for autism spectrum disorder.
Autism has gone from one in 5,000 to one in 36 children.
I graduated high school in 1988,
just dated myself right there.
I did not grow up with, nor did I know,
nor do I have any friends or have friends that know friends that had autism.
And if you ask your child today,
if your child is under 15 years old,
they probably
have four or five friends or six friends or eight friends that are affected by autism or Asperger's.
Could this be a nutrient deficiency? Could the soil depletion and the excess folic acid and the
presence of a simple gene mutation potentially be causing these kinds of conditions? Well,
that's what this study would implicate. So we talked about reversible S-phase arrest. We talked about how the DNA stops replicating,
but then when the 5-methylfolate shows up intracellularly,
that the DNA continues to zip.
So, you know, if you were unzipping your sweater
and the teeth didn't line up,
it would just stop right there.
As soon as you fix those teeth and they line up again,
this sweater unzips and zips normally.
This is exactly what's happening to our DNA.
To evaluate whether folate
deficiency induced S-phase arrest is reversible, we used folic acid and 5-methylfolate. We showed
that folate supplementation resc brought out of S-phase
arrest in patients with MTHFR if they supplemented with 5-methylfolate. So this is, you know, just
continued evidence that supplementation can potentially improve all aspects of our cellular
biology. Cells with normal MTHFR activity were able to normally
metabolize folic acid. No problem. Therefore, it was not surprising that the metabolic activity
was no different whether they were treated with folate, 5-methylfolate, or folic acid. However,
in the patients with MTHFR, the cell entered S-phase arrest 100% of the time, dependent on their polymorphism,
if they did not supplement with 5-methylfolate. First, intracellular concentrations of 5-methylfolate
were investigated. When cells with normal MTHFR were exposed to folic acid, the intracellular
concentration rose two and a half times, compared to MTHFR cells that rose zero. In contrast, when cells with the
MTHFR gene mutation were exposed to folic acid, they did not observe any increase in the
intracellular concentration of 5-methylfolate. And by the way, there's a period at the end of
that sentence. This is no longer the subject of debate. The results of this study show that
intracellular concentrations of biologically active folate, otherwise known as 5-methylfolate, alter S-phase arrest and enter
the methylation cycle normally, meaning now we can reduce homocysteine, addressing potentially
hypertension. We can go into the brain and quiet the catecholamines, potentially addressing
attention deficit disorder, attention deficit hyperactivity disorder. You know, I often will tell parents, if you want to
just do an experiment with your child, if your child has a, you know, it's a full contact support
to get your kid in the car to go to school in the morning, or, you know, they get to school and the
calls come home that little Johnny's not paying attention, he's disruptive, he doesn't follow
directions, he hasn't finished his assignments. Just do this very, very safe
experiment. For one week, get all of the fortified or enriched foods out of their diet. Militantly
get the fortified or enriched foods out of their diet. Fortified or enriched foods are sprayed
with the chemical folic acid. And just see after seven days if you don't have a completely different
child in the house. There's no risk to getting fortified or enriched foods out of their diet.
You find these in grains, cereals, breads, pastas, flours,
you know, the crackers that kids eat.
If you're interested in looking at some of the snacks
that are non-fortified, non-enriched,
I do a What's in Gary's Kitchen episode all the time.
I talk about all kinds of great snack foods for kids,
masa chips and other things that you can use
to swap out these foods that have really high
amounts of folic acid. It is astounding how many mothers and fathers call us and say, I cannot
believe the difference in my child in seven days after getting the folic acid out of their diet.
That's a high likelihood that that child has very common genetic mutation called a genetic
polymorphism called MTHFR. This is really,
really super exciting stuff. The study concluded that we have provided evidence that 5-methylfolate
can bypass folate insufficiency due to MTHFR deficiency, period. This finding is of immense
importance since a significant percentage of the population, 44% roughly, over 60% in Europe, is unable to properly
metabolize folate due to this deficiency in this enzyme, which is coded for by MTHFR. In such cases,
folate supplementation with 5-methylfolate is considerably more efficient than supplementation
with folic acid, since it can enter the folate cycle directly without the need for enzymatic modification.
Guys, I really hope that you were able to pay attention
for the entire length of this podcast short.
Please show this to your OBGYN,
show it to your pediatrician,
share it with your family.
If you have friends or loved ones,
or you're a mother or a father with small children,
or if you're thinking about getting pregnant,
or you're trying to get pregnant,
or if you're one of those women that has suffered from repeated miscarriages, or you have with small children, or if you're thinking about getting pregnant or you're trying to get pregnant, or if you're one of those women
that has suffered from repeated miscarriages,
or you have attention deficit disorder,
attention deficit hyperactivity disorder,
if you have a history of cardiovascular disease
in your family that is not genetically linked,
could very well be the nutrient deficiency.
And guys, that concludes one of my favorite podcast shorts
because it really substantiates the need
for proper supplementation.
Let's start getting data on our bodies.
Let's start supplementing for deficiency,
not the sake of supplementing.
If you look at my vitamins,
I have a vitamin called 10X Optimize
where I have surgically gone into the methylation cycle
and provided these methylation nutrients.
You do not have to buy my vitamin.
There are all kinds of great brands out there
that make methylated nutrients,
but I've decided to dedicate the entire balance
of my adult lifetime to the study of genetics
and epigenetics because I think that this is the future
of modern medicine.
I think we can be healthier, we can be happier,
we can live longer, more fulfilling lives
by making sure that our bodies have the raw material
they need to do their job.
And that's just science.