How to get rid of harmful Spike protein from your body

More than 4.5 billion people around the world have been fully vaccinated since the Kovid-19 pandemic swept the world more than two years ago. More and more people are worried about the effects of the proteins in vaccines. Is Spik Protein Really the Cause of Their Long Coved Syndrome?

Spike protein, also known as S protein, is the largest structural protein of the SARS-CoV-2 virus, forming Covid-19. This is a large structure that emerges from the surface of the virus.

When the pandemic first broke out, people’s understanding of peak protein was very limited. Spike thought that the protein only interacted with ACE (angiotensin-converting enzyme) receptors and helped the virus enter cells. However, scientists have gradually discovered that the effects of this protein are multifaceted and that it interacts with cellular tissues other than ACE2 receptors.

8 times that Spike protein harms the body

In the more than two years since the Kovid-19 pandemic, many studies have analyzed the dangers of spik protein from various aspects and found that it is harmful to the human body in several ways, including:

1. Destruction of lung cells (including pulmonary alveoli and pulmonary endothelial cells);
2. Disruption of mitochondria and DNA structures;
3. Cardiovascular cell damage;
4. Increase the risk of blood clots;
5. Damage to brain cells;
6. Increased inflammation;
7. Suppression of immunity;
8. Increasing the risk of cancer

We will go into the details of each of these points.

S proteins can affect several organs

When the virus enters the human body, the proteins affect several organs in different ways. Studies show that many organ cells are affected by proteins in the heart, brain, and cardiovascular system. In addition, an article published in the bioRxiv preprint repository in 2021 states that S proteins produce:

  • Type 1 catalytic receptors in the kidneys increase in the tissues of the kidney cells, and these types of receptors can become the hosts of the virus, making the kidneys more susceptible to viral infection.
  • Cells in the small intestine stimulate L-SIGN (non-intracellular adhesion molecules-3 integrin belonging to the liver / lymph node) receptors for protection against pathogens. However, the large amount of adhesions on the surface of small adhesion cells makes the small intestine more susceptible to viral infection when it binds to viruses. A similar situation can occur in other organs, such as the kidneys and the duodenum
  • Increased levels of DC-SIGN (Dendritic Cell-Specific Intercellular Molecule-3-Grabbing Non-integrin) receptors in the lungs, which can cause symptoms of inflammation in the lungs.

In addition, spike proteins can cause varying degrees of organ oxidation, leading to premature cell death and hyperoxidation, which further increases the risk of cancer.

A new study published in the Journal of the American Heart Association has shown that spik proteins have a direct effect on lung function.

When the human body contains spik proteins, the walls of the alveolar cells in the lungs begin to thicken and harden, and lung function declines. In addition, proteins affect the functions of the mitochondria of the lung cell, the body’s energy base.

Spike proteins can damage the mitochondria and produce long-lasting Covid

Under normal conditions, mitochondria in cells are tubular “cellular power plants” responsible for energy synthesis.

When the alveolar cells or endothelial cells of the lungs are stimulated with spik proteins, the structure of the mitochondria changes dramatically, becomes severely fragmented, and the number of tubular mitochondria is greatly reduced. Because most cells in the alveoli or endothelial tissues are severely damaged in shape and function, they are unable to produce energy, which can lead to premature depletion and death.

(Health 1 + 1)

Therefore, there is a hypothesis that prolonged Covid-19 syndrome may be due to mitochondrial damage. One of the main symptoms of chronic Covid-19 syndrome is known to be fatigue. This may be because the cells in these vital organs and tissues are not completely dead, but because their mitochondrial functions are severely impaired, and the cells shrink prematurely and become dead. This leads to a lack of energy and makes a person especially tired.

Mitochondrial damage in different cells can also cause different symptoms. If the mitochondrial function of the lung cells is impaired, the expansion and contraction functions of the alveoli of the lungs are impaired, oxygen absorption is poor, and the body’s metabolism is reduced. This also makes a person more prone to fatigue.

Spike proteins damage the cardiovascular system and cause blood clots

The heart system and the myocardial system contain a very important type of cell: the pericardial cells, which are located outside the endothelial cells of the blood vessels and often combine with the endothelial cells to transmit various signals to the blood vessels.

A study published in the journal Clinical Science found that when the SARS-CoV-2 virus enters the body, spike proteins bind to CD147 receptors on the surface of pericardial cells and may leak from the surface of endothelial cells. . This affects some functions of endothelial cells and accelerates the death of vascular wall cells.

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In addition, spik proteins directly stimulate pericardial cells, which can damage the myocardium and cause blood clots.

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Spike proteins can also cause thrombosis. Another experiment, published in the BioRxiv preprint repository, examined how platelets change after being stimulated by spike proteins.

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The experiment compared the SARS-CoV-2 virus protein with another viral protein called VSV (Vesicular Stomatitis Virus) and found that more platelets clotted in the presence of spik proteins.

Spike proteins weaken the immune system

When the human body is infected with viruses, spike proteins activate the immune system to respond to this external crisis, including the innate immune system, the acquired immune system, and the cytokines released after the immune system is stimulated. Proteins on the immune system are also versatile. This is stated in a paper published in the journal Leukemia.

For example, the innate immune system has 11 types of receptors, such as toll, and the seventh type can recognize the RNA of a single virus. Another line of mRNA (Messenger RNA) that enters the body after a Covid-19 infection or vaccination, the immune cells recognize the virus’s RNA and attack it. In the presence of spike proteins, the number of toll-like receptor expressions may increase in response to a viral attack, and additional immune cells may produce more interferons in response to different viral variants.

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If the number of viral proteins in the body is too high, they can over-activate the expression of interferons and even trigger the body’s immune system to attack its own cells.

Does the protein in the vaccine stay in the body?

Covid-19 vaccines are known to contain a mechanism for the expression of viral proteins, which allows our immune systems to recognize the virus. However, how long do vaccine proteins remain in the body?

Spike proteins are divided into two parts: S1 and S2, S1 is bound to the blood and S2 to cell membranes.

A study published in the journal Clinical Infectious Diseases found that S1 proteins appear in humans shortly after the first dose of the Modernna vaccine, and that some people still have whole spike proteins two weeks after the first dose of the vaccine.

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However, other proteins in the virus, such as nucleocapsid proteins, were absent because they were not included in the vaccine.

Even two weeks after vaccination, the presence of intact spike proteins in the human body was higher than expected.

Another study published in the Journal of Immunology showed that S2 proteins could still be detected four months after the second dose of Pfizer vaccine.

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However, the harm of proteins depends on their number. All of the above adverse effects are based on in vitro studies and animal models, and relatively significant damage occurs only when the amount of head proteins is large.

If the viral mRNA in the vaccine appears only in small amounts in the muscles and does not enter the blood or organs in large quantities, then these serious side effects will not occur.

How to remove Spike proteins from the body

If we have chronic Covid-19 syndrome after an infection or vaccination, what medications can be used to remove the proteins and improve the symptoms? The World Health Council (WCH) has made several recommendations on nutrients and medicines.

1. Foods to Help Improve Symptoms:

Vitamin C
Vitamin D
Omega 3
Quercetin
melatonin
zinc

All of these are nutrients that boost the immune system, thus helping to remove proteins from the body.

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2. Commonly used medications to improve symptoms:

aspirin
antihistamines
steroids
colchicine
Stabilization of cells
of ivermectin

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3. Plant extracts

Extracts of some natural plants help detoxify the body, including:

self-healing extract
Pine needle extract
Dandelion leaf extract
Reum emodin

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Some of these ingredients, such as citric acid in pine needles, have antioxidant properties that reduce the amount of oxidized free radicals in the body and have a detoxifying effect.

The drugs recommended above are not curative, but they help boost the body’s immunity and balance the body’s immune mechanism, which is useful in the overall fight against the virus.

It should be noted that everyone’s situation is different. Therefore, before taking any medications recommended by the WCH, you should talk to your doctor to make sure they are appropriate.

References

https://www.biorxiv.org/content/10.1101/2021.07.07.451411v1.full.pdf

https://www.ahajournals.org/doi/epub/10.1161/CIRCRESAHA.121.318902

https://pubmed.ncbi.nlm.nih.gov/34807265/

https://www.nature.com/articles/s41375-021-01332-z

https://www.biorxiv.org/content/10.1101/2021.12.14.472668v2.full.pdf

https://academic.oup.com/cid/article/74/4/715/6279075

https://www.jimmunol.org/content/207/10/2405

World Health Council: A Practical Approach to Health after Coved-19 Closure

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