mRNA, Spike Protein & Exosomes
What is really going on in our bodies?
We were told the mRNA from cv19 vaccines breaks down quickly, and for most people, that seems to be true, in that they are feeling healthy and well.
But what about those reporting lingering symptoms, immune shifts, or unusual fatigue, emotional changes, mental wellness challenges months and years now, after the jab?
Could the spike protein be hanging around longer than expected?
And if so, why?
Could exosomes, tiny cellular messengers, be playing a role in how spike protein is shared or signalled throughout the body? These aren’t just fringe questions.
They point to a deeper need to understand how the body processes novel vaccine technologies, and why not all responses are the same.
This article only provides some small insight.
What Is mRNA and What Does It Do in the Vaccine?
Messenger RNA (mRNA) is a single-stranded molecule that carries genetic instructions from DNA to the ribosomes, where proteins are made. In the context of the CV19 vaccine, synthetic mRNA is used to temporarily instruct your cells to produce the SARS-CoV-2 spike protein.
The mRNA never enters the cell’s nucleus, so it does not alter your DNA. At least that is what we have been told. Instead, the mRNA stays in the cytoplasm where it’s read by ribosomes, much like a temporary recipe. Once the protein is made, the mRNA breaks down rapidly, usually within hours to a few days. This was the premise.
The Spike Protein - What It Is and Why It Matters
The spike protein is a structural protein found on the surface of coronaviruses.
It's called "spike" because it appears as protrusions or spikes on the virus’s outer shell. The protein binds to a receptor on human cells called ACE2, which acts like a doorway for the virus to enter.
mRNA vaccines teach the body to make this spike protein (without the virus itself) so the immune system can recognise and destroy the ‘virus’ if you’re ever exposed to the actual virus. In the lab it appeared to be an effective training tool, but the presence of spike protein alone may trigger immune responses, even after the mRNA is gone. The idea that human’s can and are playing around with the bodies natural processes is scary, but a current day reality.
Why mRNA Breaks Down Quickly (But Spike Protein Might Not)
Synthetic mRNA is designed to degrade rapidly, as it’s made from the same unstable materials as natural mRNA. However, once the spike protein is produced, it may persist for longer, particularly if it is not quickly tagged and cleared by the immune system.
Studies have found spike protein fragments in blood or tissue weeks, months, years after vaccination in some people. This doesn’t necessarily mean the body is still making it, but rather that it hasn’t fully cleared it. In most people, immune clearance works efficiently. In others, it may be slower or incomplete.
So Why Is Spike Protein Still Detected in Some People?
There are a few emerging theories:
Slow clearance: In some individuals, especially those with existing immune dysfunction, the body may take longer to break down and remove the spike protein.
Tissue uptake: Some immune or endothelial cells may hold onto spike protein longer than expected.
Exosome-mediated persistence: The spike protein (or its fragments) may be packaged into exosomes and distributed to other tissues, prolonging immune activation.
These aren’t signs of ongoing mRNA activity, but they do raise questions about how the body handles vaccine-generated proteins over time.
Exosomes: The Body’s Tiny Couriers
Exosomes are small, bubble-like vesicles released by nearly all cell types. They carry proteins, lipids, and genetic material between cells. Think of them as microscopic mail carriers that deliver molecular messages.
After mRNA vaccination, cells that produce spike protein may release exosomes containing parts of the spike protein. This could help alert the immune system,
but may also allow the protein to reach parts of the body far from the injection site.
In some cases, exosomes might prolong the presence of spike protein in circulation or tissues.
Exosomes are not inherently bad; they’re part of normal cell communication. But when they carry pro-inflammatory or poorly cleared proteins, they may play a role in long-term symptoms.
Lipid nanoparticles (LNPs)
LNPs are tiny fat-based carriers used to deliver genetic material, like mRNA, in vaccines such as Pfizer and Moderna’s cv19 shots.
Here's what you need to know about them:
Purpose: LNPs protect the fragile mRNA and help it enter human cells, where the mRNA instructs the cell to produce the spike protein (which then triggers an immune response).
Structure: Think of them like microscopic bubbles made of synthetic fats (lipids), often PEGylated (coated with polyethylene glycol) to increase stability.
Persistence: Some studies suggest LNPs can travel beyond the injection site, entering the bloodstream and reaching various tissues, including reproductive organs, liver, spleen, and brain.
Concerns: While meant to degrade, there’s ongoing debate about how long they persist in the body and whether they contribute to inflammation, immune activation, or cellular stress, particularly if detoxification pathways (liver, lymph, gut) are sluggish.
In a detox context, LNPs are considered part of the “toxic load” that the body may still be clearing months or even years later, especially in those with fatigue, cycle changes, or systemic inflammation.
Individual Variation - Why Every Body Responds Differently
Surprisingly, or not so surprisingly, not everyone processes vaccines, or viral proteins, the same way. Factors that influence variation include:
Genetic differences in immune pathways
Hormonal status (e.g., postmenopausal women may respond differently)
Chronic inflammation or autoimmune conditions
Previous exposure to the virus
Dietary and lifestyle factors
Some individuals experience a natural immune response and clear the spike protein efficiently.
Others suffer ongoing or long-term effects, sometimes amounting to chronic injury.
In many cases, a slower or dysregulated immune response contributes to prolonged symptoms.
A growing number of people report changes in brain function, emotional regulation, and mental well-being, signs that suggest neurological involvement and disruption across the blood-brain barrier.
What We Know, What We Don’t, and Why It Matters
What we have been told:
This synthetic mRNA was not designed to enter the nucleus or alter DNA.
The body makes spike protein briefly, then breaks down the mRNA.
Most people clear the spike protein.
What’s still being studied:
Why some people show evidence of spike protein month, years later?
The role of exosomes in protein persistence and symptom distribution.
How to support the body in clearing spike protein more effectively.
What we don’t know:
How the mRNA injections respond to each individual body, with its inherent individual responses and immune system
Exosome ongoing transportation and messaging
The role of LNPs in spike protein persistence, other symptoms and symptom distribution
Persistence of spike protein production
The full ingredients of the vaccines
Understanding these processes is not to create fear, it’s about informed health.
For those with persistent symptoms, having a scientific explanation opens the door to appropriate support and care.
Resources
Vaccine Ingredient Breakdown -
What's Official vs. What's Omitted?
Below is a detailed look at vaccine ingredients, using manufacturer data and verified inserts alongside independent analysis, with referenced studies where possible.
1. Aluminium Adjuvants
Official Purpose (Manufacturer Info):
Used to stimulate an immune response. Common forms include:
Aluminium hydroxide
Aluminium phosphate
Aluminium potassium sulfate
Source: CDC Vaccine Information
Independent Concerns:
Classified neurotoxins - accumulate in brain and bone tissue
Linked to neurodevelopmental disorders and chronic inflammation
May impair terrain signalling, energy metabolism, and detox pathways
Shaw & Tomljenovic, 2013 - NIH
2. Formaldehyde (Formalin)
Official Purpose (Manufacturer Info):
Used to inactivate viruses or toxins during manufacture. Small residual amounts remain.
Independent Concerns:
IARC Group 1 Carcinogen
Cross-links DNA and proteins, corrupting cellular structure
Can interfere with methylation and repair processes
IARC Monograph
3. Polysorbate 80 (Tween 80)
Official Purpose (Manufacturer Info):
An emulsifier to keep ingredients stable and soluble.
Independent Concerns:
Crosses the blood-brain barrier to carry components into the brain
Facilitates deeper penetration of aluminium and viral DNA fragments
Associated with reproductive toxicity in animal studies
4. Monosodium Glutamate (MSG)
Official Purpose (Manufacturer Info):
Used as a stabiliser, especially in live-virus vaccines.
Independent Concerns:
Excitotoxin that overstimulates neurons
Can induce neurodegeneration in sensitive populations
Linked to developmental and behavioural issues
[Blaylock, 1994 - Excitotoxins: The Taste That Kills]
5. Genetically Modified Organisms (GMO’s)
Official Purpose (Manufacturer Info):
Used to express recombinant viral proteins. Includes:
Recombinant hepatitis B surface antigen (HBsAg)
HPV proteins grown in GMO yeast or insect cells
Independent Concerns:
Synthetic proteins are unstable and foreign to the body
May trigger immune confusion and autoimmunity
Long-term genetic effects are unknown
6. Animal-Derived Ingredients
Official Purpose (Manufacturer Info):
Used to grow viruses and produce cell lines. Examples:
Bovine serum
Monkey kidney (Vero) cells
Chicken embryo fibroblasts
Independent Concerns:
No infectious agent is fully purified
Contains cellular debris from dying tissue
Raises cross-species contamination risks
7. Human Fetal Tissue and DNA Fragments
Official Purpose (Manufacturer Info):
Human diploid cell lines (WI-38, MRC-5) are used in virus growth.
Independent Concerns:
Contains residual human DNA
May be mutagenic or provoke autoimmunity
Ethical concerns remain largely unaddressed
8. Antibiotics (for contamination control)
Official Purpose (Manufacturer Info):
Prevent bacterial growth during manufacture. Common ones:
Neomycin
Streptomycin
Gentamicin
Independent Concerns:
Nephrotoxic and ototoxic
Residues may disrupt microbiome balance
Can trigger allergic reactions or resistance
9. Preservatives and Stabilisers
Official Purpose (Manufacturer Info):
Prevent spoilage and maintain vaccine potency. Includes:
2-phenoxyethanol
Phenol
Sodium chloride
Sorbitol
Gelatin (porcine or bovine)
Independent Concerns:
Some are toxic to the kidneys and liver
Gelatin is linked to allergic reactions and cross-reactivity
Deoxycholate may disrupt cell membranes
10. Residual Cell Debris and DNA Fragments
Official Purpose (Manufacturer Info):
Not officially listed. Leftover from manufacturing processes.
Independent Concerns:
Human, monkey, dog and insect DNA fragments found
Includes retroviral-like particles and unknown proteins
Associated with autoimmune activation and terrain confusion
[Corvelva, Gatti & Montanari, Lee et al.]
11. Cross-Contaminants and Particulate Matter
Official Purpose (Manufacturer Info):
Not disclosed in inserts. Discovered via independent testing.
Independent Concerns:
Found particles: tungsten, lead, stainless steel, silica
Originating from machinery or filters
Not regulated; highly inflammatory
12. Non-Disclosed Additives and Proprietary Byproducts
Official Purpose (Manufacturer Info):
Classified under proprietary formulas or stabilisers. Not disclosed in full.
Independent Concerns:
May include hydrolysed milk proteins, PEGs, or synthetic polymers
Patents reveal more than inserts
No obligation to declare many ingredients unless deemed active
Summary
Each ingredient above bypasses your body's natural defence systems (digestion, filtering, and lymphatic recognition). Injected directly into blood or fascia, they may accumulate, provoke long-term dysregulation, and contribute to terrain imbalance.
Vaccines are marketed as precise and life-saving. But the true contents reveal something closer to pharmaceutical waste - decayed cells, synthetic agents, and inflammatory metals.
Final Thoughts: Do Your Own Research
This list isn’t about fear, it’s about facts. Every ingredient listed here is sourced directly from vaccine package inserts or manufacturer disclosures.
Many of the concerns raised are based on peer-reviewed science, independent lab analyses, and lived experiences from researchers and health practitioners around the world.
We are encouraged to “trust the science”, but real science invites questions, exploration, and transparency.
Blind trust is belief, not science.
If this list raised questions for you, that’s a good thing. It’s healthy to ask:
Why are these substances in vaccines?
What do they do once injected?
What long-term safety testing has been done, independently of industry funding?
Start with these sources:
CDC Vaccine Information
NCBI – Search peer-reviewed papers on individual substances
Nobody can think for you or tell you what to do!
This is your body, your terrain, your choice.