The Next Generation of Vaccine Therapies
The COVID-19 pandemic placed unprecedented pressures on drug developers. An effective and safe vaccine typically takes over a decade to create and validate, but the global impact and spread of COVID-19 accelerated the production of the first vaccines, which were rolled out less than a year after the initial outbreak of the disease.
Ultimately, a new class of vaccines based on RNA technology were the first to be approved across much of the western world. Messenger RNA (mRNA) vaccines represent a promising alternative to manufacturing conventional vaccines due to their flexibility and rapid production speed.
Discover more about mRNA vaccine production below.
Visualize the production of mRNA vaccines
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From E. coli to encapsulated mRNA molecule
Traditional vaccine development takes around ten years, from laboratory research to clinical availability. mRNA vaccines offer opportunities to speed up this timeline.
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Discover how mRNA is manufactured from your gene of interest to lipid encapsulation.
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mRNA vaccines are a promising modality of the vaccine industry. They are non-infectious, non-integrating, and cell-free, offering both rapid and readily scalable production with high productivity.
mRNA vaccines are a true platform: the same process can be used to produce mRNA vaccines against different indications. The appeal of the speed, flexibility, and safety profile of mRNA vaccines are undeniable. However, mRNA therapies are a new technology, the platform is evolving, and process parameters are rapidly changing.
Conventional vaccines typically contain small amounts of inactivated virus or isolated viral proteins (antigens). When delivered into the body, they elicit an immune response. Since the immune system has now been exposed to the pathogen, it can respond much more quickly and effectively if it encounters the infectious agent in the future.
mRNA vaccines rely on similar principles, but instead of viral proteins, mRNAs containing the instructions to make viral antigens are delivered inside the body. This prompts the body’s cells to create the antigen, which similarly activates the immune system.
mRNA therapies have gained visibility during the COVID-19 crisis, as the technology brought vaccines to the market at an extraordinary speed.
mRNA vaccine platforms have the additional benefit of flexibility and can be quickly modified in response to virus evolution or outbreaks.
COVID-19 vaccines are likely just the beginning of the mRNA revolution. mRNA vaccines also have the potential to protect against diseases such as HIV and Zika.
mRNA therapies could also hold promise in other clinical areas, including the treatment of cancer and rare genetic disorders.
Our vaccine experts Amélie Boulais and Piergiuseppe Nestola share their thoughts on the challenges and future directions of global vaccination programs.
Discover how Sartorius’ product portfolio supports progress in the field of mRNA therapies, including the manufacture of a new generation of vaccines.
Discover mRNA Production
Discover how chromatography techniques can support efficient downstream processing of mRNA therapies.
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