has been the biggest barrier to entry for RNA vaccines. As is widely known, the PB
and Moderna vaccines must be stored at extremely low temperatures; notably, −60
to −90°C and −15 to −25°C, respectively. This is partly due to the intrinsic in-
stability of the RNA molecule, but also due to the LNP carrier requiring low tem-
perature storage [28]. At refrigeration temperatures (~4°C), these vaccines will only
remain stable for 5 and 30 days for the PB and Moderna vaccines, respectively [25].
These storage condition requirements represent a major hurdle to the global dis-
tribution of mRNA vaccines, because they require a very complicated distribution
chain, and they may seriously prohibit access to the vaccine in areas without cold-
chain infrastructure. This is in sharp contrast to DNA vaccines, which may remain
stable at 25°C for up to 4 years [25].
There are two elements of stability: shelf-life stability and in-vivo stability (see
Chapter 8). In terms of in-vivo stability, there are several ways to overcome the
inherent instability of RNA in the body. For example, certain nucleotide modifica-
tions, as described above, can help the RNA molecule evade detection of the RNAses
and the immune system. These include adding 5′ Kozak and cap sequences, 3′ poly-A
BIOREACTOR PRODUCTION
DOWNSTREAM PROCESSING
LNP ENCAPSULATION
FILL-TO-FINISH
- DNA template production
- E. coli fermentation
- DNA linearization
- Cell-free in vitro RNA
transcription
- 5’ capping
- DNA digestion (DNAse I)
RNA in aqueous stream
Lipids in ethanol stream
- TFF concentration
- Chromatography purification
-A second TFF diafiltration
- Sterile filtration
- Controlled lipid condensation
- Use of microfluidic mixers
- Nanoparticle formation
- Sterile filtration
- Sterile dilution
- Filling, capping
-Sealing
- Quality control
- Optical check
- Labelling
- Packaging
FIGURE 12.1 Bioprocess flow diagram for mRNA vaccine manufacturing. There are four
main manufacturing blocks: mRNA production at bioreactor scale, mRNA downstrseam
processing, lipid nanoparticle (LNP) encapsulation, and fill-to-finish, each of the manu-
facturing block comprising different unitary operation modules.
COVID-19 vaccines
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