Joshua stopped the sun, the 20th century has stored it in the vault.
As far as I understand, vit. D deficiency is a root cause of nearly all the 'modern' illnesses. The other blatant cause is the daily intake of poisonous chemicals and minerals, be it by vaccines, air, water pollution, food itself and the way it is processed, medicines, artificial light, radio waves and so on.
All this is the result of a mere century old 'tech-led' life.
But was it only the body !! It is the soul too. Deficiency of values and addictions to moral poisons has grown together with the corporal diseases.
The technological turn mankind has taken is leading us to the abyss, with or without the PTB who only direct a preexisting flow, the stream of the illusion of an egoist and malfeasant living creature: Man.
Man doesn't let a small space of life being outside his grip, man allows himself to behave as a master, a conqueror, a killer. Man's highest order of life is power upon everything. There is no more a centimeter of earth's land that does not belong to a state. Even the Moon is claimed for possession.
Man is pathologically ill. The evil is inside, has always been. Do you know any 'civilization' that has not its mayhem ?
HATE, LA HAINE
I despise mankind that has let being such a nightmare of a life, I hate man who has indulged himself to behave as the worst living existing creature, Cain, Salomon, Ignacio de Loyola, Attila, Napoleon, Macron, Lenin, Putin ... You and You and You !!!
Scientists mystified
at how sub-Saharan Africa avoids Covid
STORY AT-A-GLANCE
Scientists appear
stymied by the low number of infections and deaths in sub-Saharan Africa where
the vaccination rate is less than 6%
Africa has 17.46% of
the world's population and 3% of the COVID-19 global death toll while countries
with better health care have higher death rates, including the Americas with
46% and Europe with 29%
Nigeria, with the
highest population, has had 3,000 deaths in 200 million people, which is what
is recorded in the U.S. every two or three days. Yet, Nigeria has announced an
all-out vaccination program to "prepare for the next wave"
Factors that may have
influenced the low infection and death rate are outdoor living that raises
vitamin D levels, a younger population and access to medications and herbs used
for other local conditions, but which are also known to reduce the severity of
COVID
Is Sunbathing More Important Than Vitamin D ?
Analysis by Dr. Joseph Mercola
February 26, 2022
STORY AT-A-GLANCE
The vast majority,
95%, of the melatonin your body produces is made inside your mitochondria in
response to near-infrared radiation from the sun. Only 5% of melatonin is
produced in your pineal gland at night
During the day,
near-infrared rays from the sun penetrate deep into your body and activate
cytochrome c oxidase, which in turn stimulates the production of melatonin
inside your mitochondria
Your mitochondria
produce ATP, the energy currency of your body. A byproduct of this ATP
production is reactive oxidative species (ROS), which are responsible for
oxidative stress
Excessive amounts of
ROS will damage the mitochondria, contributing to suboptimal health,
inflammation and chronic health conditions such as diabetes, obesity and
thrombosis (blood clots)
Melatonin mops up ROS
that damage your mitochondria. Provided you get good sleep and plenty of sun
exposure during the day, your mitochondria will be bathed in melatonin, thereby
reducing oxidative stress
I have been absolutely
fascinated with the association of sun exposure to health for nearly three
decades. It was obvious to me that nearly all dermatologists are seriously
confused about avoiding the sun, as sun eposure is essential to stay healthy.
I always knew there
was some important fact we were missing, and I sincerely believe that in the
MedCram video above, we learn what that is. Dr. Roger Seheult explains the ins
and outs of how sunlight impacts your health — not only through increasing your
vitamin D levels but through melatonin! It’s nearly two hours long, but well
worth it if you have the time and are a fraction as fascinated by new science
insights that could radically change your health as I am.
A condensed 25-minute
version is included below. Seheult’s review is primarily based on the February
2020 paper, “Melatonin in Mitochondria: Mitigating Clear and Present Dangers,”
published in the Physiology journal. It’s written by the best researcher in
melatonin, Russel Reiter, Ph.D., whom I first heard lecture on melatonin over
25 years ago. This paper is one of the best papers I’ve read in a long while
and you can access the full paper for free.
Melatonin Is Produced
in Response to Sun Exposure
To summarize the key
finding before we dive into the nitty-gritty, the vast majority of the
melatonin your body produces — 95% — is actually made inside your mitochondria
in response to near-infrared radiation from the sun. Only 5% of melatonin is
produced in your pineal gland.
It is important to
note that melatonin supplements, contrary to what you might expect, do not wind
up in your mitochondria where they are needed most to quench the damage from
oxidative stress produced in the electron transport chain.
Melatonin, of course,
is a master hormone, a potent antioxidant and antioxidant recycler, and a
master regulator of inflammation and cell death. These functions are part of
what makes melatonin such an important anticancer molecule.
Melatonin has also
been shown to be an important part of COVID treatment, reducing incidence of
thrombosis and sepsis and lowering mortality. As noted by Seheult, evidence
suggests sun exposure may help combat any number of respiratory infections, including
COVID, and the production of melatonin in your mitochondria appears to be a key
part of why that works.
Seheult reviews a
number of evidences showing that COVID rates across the world correlate to the
solar index or the amount of sun striking the area. Positive case rates also
correlate with vitamin D levels in the blood. Higher blood levels correlate
with lower incidence of COVID and higher rates of survival for inpatients.
In short, vitamin D is
more than likely a MARKER or surrogate for sun exposure. But all the benefits
are likely due to other factors than vitamin D itself. As noted by Seheult,
some studies looking at the effect of giving vitamin D to patients treated for
severe COVID found no benefit, even at very high doses.
What’s more, research
looking at UVA levels and COVID mortality rates found areas of the U.S., the
U.K. and Italy with higher UVA also had lower COVID mortality rates. Vitamin D
does not rise in response to UVA (only UVB), so, something in the sunlight,
other than vitamin D, must have a beneficial impact. As noted by the authors:
“In conclusion, this
study is observational and therefore any causal interpretation needs to be
taken with caution. However, if the relationship identified proves to be
causal, it suggests that optimizing sun exposure may be a possible public
health intervention.
Given that the effect
appears independent of a vitamin D pathway, it suggests possible new COVID-19
therapies and the importance of exploring the role of circulating NO [nitric
oxide].”
Here, they speculated
that nitric oxide, which is produced in response to UVA, could be the key, as
nitric oxide has been shown to limit SARS-CoV-2 replication in vitro in
addition to normalizing your blood pressure.
But while it’s true
that nitric oxide rises in response to sunlight (specifically UVA and
near-infrared), Seheult believes the primary mechanism at work here is
melatonin, because it’s produced in response to the infrared spectrum, which
makes up a much greater portion of the solar spectrum than ultraviolet, and
works regardless of the angle at which it hits the earth.
Hence the southern part of England can have lower COVID deaths than the northern part, even though the entire country is too far north for vitamin D production.
Understanding Solar
Energy solar spectrum
As you can see from
the illustration above, 39% of the solar spectrum is what we see as visible
light. The majority of the solar spectrum, 54%, is infrared, which is not
visible but rather felt as heat. Ultraviolet light accounts for only 7% of the
solar spectrum, and vitamin D is specifically produced in response to UVB
radiation, which is only a small part of the ultraviolet spectrum.
Melatonin is produced
inside your mitochondria in response to near-infrared radiation, which is part
of the infrared spectrum. Because near-infrared has a much longer wavelength
than ultraviolet, it can penetrate much deeper into your body, reaching cells
in your subcutaneous tissue and not just on your skin. Near-infrared is not
seen but rather felt as warmth. Its penetrative power (heat) also means it can
penetrate lightweight clothing.
Melatonin Combats
Oxidative Stress, Day and Night
Your mitochondria
produce ATP, the energy currency of your cells. A byproduct of this ATP
production are reactive oxidative species (ROS), which are responsible for
oxidative stress. Excessive amounts of ROS will damage your mitochondria,
contributing to suboptimal health, inflammation and chronic health conditions
such as diabetes, obesity and thrombosis (blood clots).
The good news is your
body has a built-in way to counteract these ROS. Inside your mitochondria, you
also have an antioxidant system, and the main antioxidant is melatonin.
(Melatonin also upregulates your glutathione pathway.)
During the day,
near-infrared rays from the sun penetrate deep into your body and activate
cytochrome c oxidase, which in turn stimulates the production of melatonin
inside your mitochondria.
Melatonin is perhaps
best known as a sleep regulating hormone. At night, the level produced by your
pineal gland rises, which help make you sleepy and ready for bed. As the sun
rises and morning dawns, the level automatically recedes, allowing you to wake
up.
But that’s not all
melatonin does. As melatonin is released at night, it travels through your
circulatory system and is taken up by cells. Once inside, the melatonin mops up
excessive ROS.
Melatonin also helps
counteract damaging ROS during the day, but through a different pathway. During
the day, near-infrared rays from the sun penetrate deep into your body and
activate cytochrome c oxidase, which in turn stimulates the production of
melatonin inside your mitochondria.
Melatonin and Sunlight
Are Intimately Connected
Melatonin and sunlight
are intimately linked and their relationship is unique in the fact that there
are two forms of melatonin, circulatory and subcellular, or that produced by
the pineal gland and secreted into the blood, and that produced by your
mitochondria and used there locally.
Both appear to be
controlled by either the absence of sunlight or the presence of sunlight. While
circulatory melatonin may be the “hormone of darkness,” subcellular melatonin
is the “hormone of daylight.”
Since the beginning of
human history, people have lived and worked outdoors during the light of day,
absorbing light energy from the sky. An average of 10 hours outdoors each day,
70 hours weekly, was common. Today, we spend an average of fewer than 30 minutes
a day or a mere three hours per week in daylight, according to a study by Dr.
Daniel Kripke, professor of psychiatry at UC San Diego.
It is likely that
near-infrared (IR) photons stimulate subcellular melatonin synthesis in your
mitochondria through cyclic adenosine monophosphate (cAMP) or NF-kB activation,
or alternatively by stimulating bone marrow stem cells. However, if you fail to
expose your skin to sufficient near-IR light from the sun than your
mitochondria will have seriously depleted melatonin levels that can’t be
corrected through supplementation.
Melatonin’s Role in
COVID
Alright, so what does
all of this have to do with treating COVID? For this, we need to snake our way
through some biology. Angiotensin 2 is a pro-oxidant that is converted into
angiotensin 1,7, an antioxidant, by the ACE2 enzyme. ACE2 is the same enzyme
the SARS-CoV-2 spike protein attaches to and uses to enter the cell.
Angiotensin 2
increases blood pressure while angiotensin 1,7 lowers it by relaxing your
vasculature. If you have high angiotensin 2, you’ll have higher ROS in the
cell, which, as mentioned is detrimental, as it damages the machinery of the
cell. Angiotensin 1,7, on the other hand, will decrease ROS in the cell.
The problem you
encounter with COVID is that when the virus attaches to the cell, it knocks out
the ACE2 enzyme (because the spike protein is now bound to it). So, angiotensin
2 increases, angiotensin 1,7 decreases, and the conversion from angiotensin 2
to angiotensin 1,7 cannot occur.
As a result, ROS
increases unchecked inside the cell. SARS-CoV-2 infection also increases white
blood cell production, and that increases ROS as well. The end result of this
elevated oxidative stress is blood clots, which in turn leads to hypoxemia.
Melatonin can break
this destructive cycle by mopping up ROS and protecting your mitochondria from
destruction. As noted by Seheult, if you’re not getting enough sleep at night,
and not getting enough sun exposure during the day, your mitochondria are
basically “running hot” with inflammation. Melatonin is the coolant that
dampens the ROS in your mitochondria.
If your mitochondria
are already taxed and you come down with COVID, the added stress can tip you
over the edge. If your melatonin system is working well, because you’re getting
good sleep and plenty of sun exposure, you’re more likely to fight off the
infection and not have it turn serious.
Seed Oils Increase
Your Risk for Both COVID and Sunburn
This may seem like a
tangent, but it’s an important one. Linoleic acid (LA) makes up the bulk —
about 60% to 80% — of the omega-6 fat you consume, and it’s a primary
contributor to nearly all chronic diseases. While formerly thought an essential
fat, when consumed in excessive amounts, LA actually acts as a metabolic poison.
At a molecular level,
excess LA consumption damages your metabolism and impedes your body’s ability
to generate energy in the mitochondria. Polyunsaturated fats such as LA are
highly susceptible to oxidation, which means the fat breaks down into harmful subcomponents.
Oxidized LA metabolites (OXLAMs) are what cause the damage.
Over the last 150
years, the LA in the human diet has increased from 2 to 3 grams a day to 30 or
40 grams. It used to make up just 1% to 2% of the energy in our diet and now it
makes up 15% to 20%. This massive increase in LA consumption is what likely
contributes to the increased oxidative stress in your body contributing to an
increased risk for virtually every chronic degenerative disease.
Primary sources are
seed oils and processed foods (which contain seed oils). Conventionally-raised
chicken and pork are other common sources, thanks to the LA-rich grains they’re
fed. As indicated in the subhead, high LA intake can raise both your risk for
sunburn (which you don’t want as that’s what’s contributes to skin cancer) and
your risk for COVID.
Eliminating seed oils
from your diet will dramatically reduce your risk of sunburn and skin cancer,
as susceptibility to UV radiation damage is controlled by the level of PUFAs in
your diet. It’s almost like a dial. The PUFAs control how rapidly your skin
burns, and how rapidly you develop skin cancer.
As for LA’s impact on
COVID, consider this: The key toxin that produces the symptoms of acute
respiratory distress syndrome (ARDS) is called leukotoxin, which is made from
LA by white blood cells to kill pathogens. Basically, the white blood cells
convert the LA into leukotoxin, which contributes to the inflammatory domino
effect Seheult describes.
Leukocytes incubated
with LA convert all of the LA into this toxin until there's none left, so, a
major part of the disease process in ARDS is the conversion of LA into
leukotoxin. That appears to be what’s killing many COVID patients. So, in
summary, simply eliminating (or radically reducing) seed oils and conventional
chicken and pork from your diet can go a long way toward:
a. Reducing your risk
of sunburn, thus allowing you to get plenty of worry-free sun exposure to raise
your vitamin D level, increase nitric oxide and boost melatonin production in
your mitochondria
b. Lowering your risk
of COVID complications by limiting the conversion of LA into leukotoxin
How Melatonin Is
Created in Your Mitochondria
While Seheult focuses
on the role of melatonin in COVID-19, the paper, “Melatonin in Mitochondria: Mitigating
Clear and Present Dangers,” goes into much broader applications.
Again, melatonin is
important for fighting cancer, and mitochondrial dysfunction plays a central
role in most all chronic disease, including cancer, Parkinson’s, Alzheimer’s
disease, heart disease and Type 2 diabetes, just to name a few. The paper also
describes in far greater detail the mechanism for how melatonin is created
within the mitochondria:
“In normal cells,
mitochondria account for energy (ATP) production, which results from glucose
metabolism (glycolysis) and cellular respiration (oxidative phosphorylation or
OXPHOS) in the inner mitochondrial membrane.
Glycolysis, which
occurs in the cytosol, generates pyruvate, which is actively transported into
the mitochondrial matrix. Here, pyruvate is converted to acetyl-CoA, the latter
linking glycolysis with the citric acid cycle in the mitochondrial matrix and
thus coupling it to ATP production.
Acetyl-CoA is also an
essential co-factor for N-acetyltransferase (AANAT), which converts serotonin
to N-acetylserotonin, the precursor of melatonin; AANAT activity rate limits
melatonin synthesis.
In contrast to normal
cells, many solid tumor cells allow the metabolism of glucose to pyruvate in
the cytosol but restricts the transfer of pyruvate into the mitochondria; this
is known as the Warburg effect ... The Warburg effect allows cancer cells to
rapidly proliferate, avoid apoptosis, and enhance the invasiveness and
metastatic processes characteristic of tumors.”
The Warburg Effect in
COVID
Interestingly, the
Warburg effect is also at play in COVID. As explained in a June 2020 study that
found melatonin inhibited COVID-19-induced cytokine storm, when your immune
cells are in a hyper-inflammatory state, their metabolism changes in a way
similar to that of cancer cells:
“Similar to cancer
cells … immune cells such as macrophages/monocytes under inflammatory
conditions abandon mitochondrial oxidative phosphorylation for ATP production
in favor of cytosolic aerobic glycolysis (also known as the Warburg effect) …
The change to aerobic
glycolysis allows immune cells to become highly phagocytic, accelerate ATP
production, intensify their oxidative burst and to provide the abundant
metabolic precursors required for enhanced cellular proliferation and increased
synthesis and release of cytokines ...
Because of melatonin's
potent antioxidant and anti-inflammatory activities, it would normally reduce
the highly proinflammatory cytokine storm and neutralize the generated free
radicals thereby preserving cellular integrity and preventing lung damage.”
Optimize Your Health
With Sensible Sun Exposure
Basically, what
“Melatonin in Mitochondria” found is that melatonin is an ideal target when
trying to combat mitochondria-related diseases and cancer, because it has ready
access to, and is synthesized in, your mitochondria, right where the oxidative
stress occurs. By reprogramming the faulty glucose metabolism, melatonin can
optimize mitochondrial function and curtail cancer growth.
Remember, taking
melatonin supplements will not transfer to increasing mitochondrial melatonin
production. It needs to be produced near your mitochondria and not float down
from your pineal gland. So, oral supplementation is not a substitute for going
outside during the day.
If you take it during
the day, you’re tricking your body into thinking it’s nighttime, which could
cause problems. As far as we know, the best way to increase mitochondrial
melatonin is to optimize your near-IR exposure through regular sunlight
exposure.
ira vs uv
As you can see in the
graph above, unlike increasing vitamin D, you have a much broader window where
you can get near-IR exposure. Interestingly, spending time in nature is another
way to increase your IR levels as most green plants and trees reflect IR. This
is likely why forest bathing is so healthy.
The good news is you
don’t have to be close to naked to benefit, as you do when optimizing your
vitamin D production. The near-infrared radiation will penetrate lightweight clothing.
So, you can cover yourself to prevent sunburn if you’re outside for a longer
period of time, while still getting the near-infrared that you need. (Also,
remember what I just told you about eliminating LA from your diet to cut your
sunburn risk.) That said, you will absorb more IR on your bare skin.
The other side of the
equation is avoiding bright light late at night. To optimize melatonin release
in your pineal gland at night, avoid blue light-emitting gadgets at least a
couple of hours before bed and keep the lighting in your room dim.
Blue-blocking glasses can also be used. Once in bed, makes sure your room is
pitch black, as even a small amount of light can interfere with melatonin
production.
Together, sun exposure
during the day and keeping it dark at night, will ensure your mitochondria are
being bathed — day and night — in melatonin that reduces harmful ROS. So, as
suggested by Seheult, try to spend more time outdoors, especially if you’re
sick (whether it be COVID or some other respiratory infection) or battle
chronic disease.
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