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How mRNA Vaccines Work


What is different about mRNA vaccines?

Some vaccines use a whole virus or bacterium to teach our bodies how to build up immunity to the pathogen. These pathogens are inactivated or attenuated, which means weakened. Other vaccines use parts of viruses or bacteria.

Recombinant vaccine technology employs yeast or bacterial cells to made many copies of a particular viral or bacterial protein or sometimes a small part of the protein.

mRNA vaccines bypass this step. They are chemically synthesized without the need for cells or pathogens, making the production process simpler. mRNA vaccines carry the information that allows our own cells to make the pathogen’s proteins or protein fragments themselves.

Importantly, mRNA vaccines only carry the information to make a small part of a pathogen. From this information, it is not possible for our cells to make the whole pathogen.

Both mRNA COVID-19 vaccines that Pfizer/BioNTech and Moderna have developed cannot cause COVID-19. They do not carry the full information for our cells to make the SARS-CoV-2 virus, and therefore, cannot cause an infection.

While the concept of mRNA vaccines may seem simple, the technology is rather sophisticated.

Addressing stability and safety

RNA is a notoriously fragile molecule. Delivering mRNA successfully to cells inside our bodies and ensuring that enzymes within our cells do not degrade it are key challenges in vaccine development.

Chemical modifications during the manufacturing process can significantly improve the stability of mRNA vaccines.

Encapsulating mRNA in lipid nanoparticles is one way to ensure that a vaccine can successfully enter cells and deliver the mRNA into the cytoplasm.

mRNA does not linger in our cells for long. Once it has passed its instructions to the protein-making machinery in our cells, enzymes called ribonucleases (RNases) degrade the mRNA.

It is not possible for mRNA to move into the nucleus of a cell as it lacks the signals that would allow it to enter this compartment. This means that RNA cannot integrate into the DNA of the vaccinated cell.

There is no risk of long-term genetic changes with mRNA vaccines.

The mRNA COVID-19 vaccines by Pfizer and Moderna have undergone safety testing in human clinical trials.

The United States Food and Drug Administration (FDA) have granted Emergency Use Authorization (EUA) for the Pfizer mRNA vaccine after reviewing the safety data from over 37,000 trial participants.

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