Pure capped mRNA vaccine opens the door to more effective vaccines with lower risk of inflammation, a new study finds

A research group from Japan has developed a method to produce highly active mRNA vaccines at high purity using a unique cap to easily separate the desired capped mRNA.

This ‘Purecap’ technique extracted up to 100% pure Cap2-type mRNA, which showed three to four times better production of the protein that stimulates the immune system.

These results open up the possibility of purer vaccines with a lower risk of inflammation caused by impurities.

mRNA vaccines have been used successfully as therapy against variants of the coronavirus. This has given researchers hope for their future use as a cancer vaccine.

However, the purity of vaccines hinders this goal because impurities can trigger the immune system.

This may cause inflammation around the injection site, a common side effect of vaccination.  

Impurities in mRNA vaccines are often introduced in the capping stage.

During this stage, a cap structure is added that improves the translation of mRNA and protects and stabilises it.

Caps can only be added to single-stranded mRNA, so ideally a vaccine should contain 100% pure single-stranded mRNA. However, unwanted double-strands of mRNA may be present, reducing its purity.  

As single- and double-stranded mRNAs have different properties, they can be separated using a technique called reversed-phase high-performance liquid chromatography (RP-HPLC).

This technique separates mRNAs on the basis of their hydrophobicity or hydrophilicity, ie, their repulsion by, or attraction to, water. 



Pure vaccine


A research group led by Professor Hiroshi Abe, Project Assistant Professor Masahito Inagaki, and Project Associate Professor Naoko Abe of the Graduate School of Science, Nagoya University, in collaboration with Tokyo Medical and Dental University, used a unique PureCap method to introduce a hydrophobic tag at the capping stage.

The tagged mRNA was easily separated at the RP-HPLC stage. The tag was then easily removed by light treatment, resulting in a 98%-100%-pure vaccine. 

Hiroshi Abe said: “We were very excited about the result when we saw on the chart that the RP-HPLC process had separated completely the capped and uncapped RNAs.

“For a coronavirus mRNA, which is 4,247 bases long, we successfully used the PureCap method to produce capped mRNA with over 98% purity.”   

The research group paid particular attention to a group of cap structures that exist in animal and plant cells, called Cap0, Cap1, and Cap2.

Although Cap2 is found in animal and plant cells, the evaluation of its function has been difficult because there was no way to obtain pure capped mRNA to ensure a fair test.  

Abe added: “The Cap structure used in mRNA vaccines has so far been limited to Cap0 and Cap1 types. However, we used our technique to manufacture Cap0, Cap1, and Cap2-type structures.

“Highly purified Cap0, Cap1, and Cap2-type mRNA synthesised using the PureCap method showed lower immunostimulatory activity compared to mRNAs synthesised using conventional techniques showing their potential use in pharmaceuticals.” 

As viruses mostly produce Cap1 mRNA, the immune system is less stimulated by Cap2.

This suggests that a vaccine that uses Cap2 would be less likely to cause unwanted side effects such as inflammation when it is injected.

However, it would still be able to create viral proteins when transcribed that make the vaccine effective.  


Improve safety and efficacy


The group used Purecap to create Cap2 mRNA and analysed its protein synthesis capacity.

They found that Cap2 mRNA produced three to five times more protein than Cap1 mRNA, which would enhance the immune response.

They also showed that their Cap2-type mRNAs caused lower stimulation of the inflammatory response than mRNAs synthesised using conventional techniques.  

Abe said: “Conventional mRNA vaccine production methods could not prepare capped mRNA with high purity, raising concerns about reduced protein synthesis and impurity-derived inflammatory reactions.

“The PureCap method solves these problems by selectively purifying only capped mRNA.

“Furthermore, the Cap2-type structure created using this technique is more efficient in protein synthesis and less irritating to the immune system.

“This technique has the potential to improve the safety and efficacy of mRNA vaccines.

“It is a revolutionary advance toward the practical application of mRNA medicine, as well as deepening our understanding of the fundamentals of mRNA science.”

The findings are published in Nature Communications

Image: Pure capped mRNA vaccine opens the door to more effective vaccines with lower chances of inflammation. Credit: Mizuki Tada.

Research Aether / Health Uncovered