By Dr Joseph Mercola
In “Innate Immune Suppression by SARS-CoV-2 mRNA Vaccinations: The Role of G-quadruplexes, Exosomes and MicroRNAs,” Stephanie Seneff, Ph.D., and Drs. Peter McCullough, Greg Nigh and Anthony Kyriakopoulos explain how the COVID shots suppress your innate immune function, and how they may cause neurological diseases
Their landmark paper was the source of major controversy in that the prominent journal in which it was published receive much negative feedback and the editor of the journal was forced to resign although the paper has not been retracted at this time
G4s are genome-wide targets of transcriptional regulation. The “G” stands for guanine. G4 is DNA sequence of four guanines, which plays an important role in diseases such as cancers and neurological disorders. The COVID jab spike protein produces far more G-quadruplexes (G4) than the virus. The G4 causes prion protein to misfold, which can result in prion diseases such as Creutzfeldt-Jakob disease and Alzheimer’s
Two specific microRNA have been found in people who got the jab, and these microRNA’s interfere with Type 1 interferon response, which is a key part of your immune system. When Type 1 interferon is suppressed, you become more prone to infection and chronic disease
The COVID jab produces high levels of immunoglobulin (IgG) antibodies, which are associated with autoimmune disease. It does not produce mucosal antibodies
Antibodies against the spike protein may be responsible for cases in which patients developed highly aggressive prion disease after their second jab.
In this interview, return guest Stephanie Seneff, Ph.D., a senior research scientist at MIT for over five decades,1 discusses her paper,2 “Innate Immune Suppression by SARS-CoV-2 mRNA Vaccinations: The Role of G-quadruplexes, Exosomes and MicroRNAs,” published in the June 2022 issue of Food and Chemical Toxicology.
The paper was co-written with Drs. Peter McCullough, Greg Nigh and Anthony Kyriakopoulos. In May 2021, Nigh and Seneff published a paper3 detailing the differences between the spike protein and the COVID jab spike protein.
In the “Innate Immune Suppression” paper, they and their other co-authors delve deep into the mechanisms of the COVID shots, showing how they suppress your innate immune system.
The paper caused quite a stir when it was first posted, prior to publication. A campaign was launched to have it retracted on the premise that it would discourage people from getting these life-saving shots — regardless of whether the mechanisms described were true or not.
Ultimately, the controversy led to the resignation of the editor of the journal. Many have also tried to discredit Seneff, and McCullough has since been stripped of his medical credentials.4
Understanding G-Quadruplexes
G-quadruplexes (G4) are genomewide targets of transcriptional regulation, and as such as a novel target for drug design. The “G” in G4 stands for guanine, so G4 is DNA sequence of four guanines. It’s one of the four nucleotides — the basic code — in DNA, and it’s known to play an important role in diseases such as cancers and neurological disorders.5
As explained by Seneff, prions, when misfolded, build beta sheets and precipitate out of the cytoplasm, causing plaque to form. This plaque is a hallmark of several neurodegenerative diseases in animals and humans, such as Mad Cow disease, Creutzfeldt-Jakob disease, scrapie (which affects sheep) and chronic wasting disease in deer.
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How the COVID Jab Can Induce Autoimmune Disease
As explained by Seneff, the mRNA in the jab is taken into your lymph system and spleen, germinal centers where antibodies are produced, and in order to produce the antibodies, these germinal centers release exosomes. This can help explain the phenomenon of “shedding,” but it also helps explain the immune destruction we see occurring.
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Mechanism of Action
Swiss researchers recently reported finding elevated troponin levels in 100% of COVID jabbed individuals, indicating everyone is suffering some degree of heart damage, even if they’re asymptomatic.6,7
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The Role of MicroRNAs
Another piece of the puzzle is related to the role of microRNAs, which are embedded in the exosomes that travel to the tissues. MicroRNAs should not be confused with mRNA. They’re two different things. The microRNAs are short pieces of RNA, about 22 nucleotides long. Unlike mRNA, microRNA do not code for protein.
The mRNA in the jabs are designed to be extremely resilient. Normally, mRNA lasts a few hours, but the mRNA in the jabs stick around producing protein in cells for several months, at minimum primarily because of the substitution of the nucleotide uridine with pseudouridine.
Because the mRNA is so resilient, spleen cells have to try to cope with all the spike protein that they cannot stop making, and one way they do that is by pushing the spike protein out in the form of exosomes. Those exosomes also contain microRNAs. Indian researchers found two specific microRNAs in people who got the jab, and these microRNAs interfere with Type 1 interferon response.
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Hypothesis to Explain Post-Jab Sudden Death
Seneff goes on to cite animal research from 2005, in which mice were exposed to a virus that causes myocarditis. They wanted to see what would happen if the mice were suffering from myocarditis and then got a shot of adrenaline. So, the mice were infected with the myocarditis-inducing virus, and then, 120 days later, they injected them with adrenaline.
The dose given killed 70% of them. Meanwhile, control mice that did not have myocarditis suffered no ill effect when injected with the same dose of adrenaline. The mice that died, died of heart failure. Basically, their hearts were too damaged to withstand the adrenaline rush. Today, we’re seeing a similar effect in athletes, who are dropping dead while exerting themselves.
Digging for other papers, Seneff found one that detailed the Type 1 interferon response in chromaffin cells, the cells that make adrenaline. Type 1 interferon inhibits and reduces their production of adrenaline.
Seneff’s theory is that the COVID jabs interferes with your body’s ability to respond to Type 1 interferon, thereby allowing too much adrenaline to be released. If your heart has been damaged by the spike protein, the outcome could be lethal, as we’ve seen.
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At the same time, microthrombi (micro blood clots) are activated by the spike protein, which could have lethal effects, and endothelial cells (the cells lining your blood vessels) are also inflamed. So, there’s not just one mechanism by which the jabs could kill you.
Spike Protein Creates Incredibly Tough Blood Clots
According to Seneff, blood clots are also connected to the prion aspect. Many different proteins are amyloidogenic and can misfold, causing them to precipitate out, including proteins in your blood. Blood clots are tough to break down, and when you add spike protein into them, they become even tougher.
Seneff suspects the spike protein binds to fibrin, causing it then to misfold in a way that makes it very resistant to breaking down. The same thing happens with prion proteins. When they misfold, they create a gel that becomes denser over time, eventually becoming completely inaccessible to the water base.
Link to video
Link to paper
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9012513/
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How the Covid Shots Cripple Immune Function
Greatest crime in world history