By Citrawati Dyah Kencono Wungu, University of Airlangga
A rapid response technology with many advantages, mRNA is considered relatively safe, and can induce strong immunity. Vaccines made with mRNA are also adaptive, cost-effective, and quick to make.
Scientists have worked with mRNA since 1987, when Robert Malone tried to combine mRNA with fat droplets, enabling human cells soaked in the mixture to produce protein.
However, it took a long time for scientists to believe that the mRNA produced was stable enough, effective in inducing an immune response, and safe. Just as mRNA technology proved its potential, a new coronavirus hit.
Vaccine development itself generally takes several years, with the previous record minimum four years for the mumps vaccine. However, the devastating coronavirus pandemic worldwide forced scientists to work at the speed of light.
On December 2, 2020, less than a year after the world was first alerted to Covid-19, a vaccine developed by Pfizer in collaboration with BioNTech, a German biotech firm, became the first fully-authorised mRNA vaccine.
The vaccines use a molecule called messenger RNA — a cousin of the more familiar DNA — to trigger the human body to produce a protein which is specific for the disease in question.
Our immune system then recognises and remembers the protein as foreign, allowing it to generate a strong immune response if the disease and its specific protein is encountered again.
When the rollout of Covid-19 vaccination began, the government of Indonesia and several other Asian countries chose to play it safe and recommended pregnant women didn’t get the jab.
It was only after several trials showed promising results that the Indonesian Obstetrics and Gynaecology Association finally gave a recommendation for Covid-19 vaccination for pregnant women with supervision in July 2021.
Covid-19 significantly increases dealth or illness of both mother and baby as well as the risk of complications during pregnancy and birth. A review of published research by Airlangga University, with a total of 48,039 pregnant women, showed that mRNA vaccines provide greater benefits for pregnant women than harm.
The mRNA-based vaccines reduced the risk of infection with Covid and did not cause any apparent harm during pregnancy. Further studies are needed to monitor the side-effects of the Covid-19 vaccine over the long term, especially in babies born to pregnant women who were given the mRNA vaccine.
In the future, mRNA vaccine technology also has the potential to be developed for other infectious diseases, such as influenza, dengue, zika, and chikungunya fever.
Scientists simply need to modify a mRNA component of a vaccine instead of the entire thing for new diseases or strains. This makes developing new vaccines and adapting existing ones easier and faster.
With such promise, several vaccine developers are also exploring mRNA vaccines for traditionally difficult diseases such as malaria and HIV. Moreover, mRNA technology has not only been developed for infectious disease, but is also being explored for non-infectious diseases such as cancer.
Over twenty mRNA-based immunotherapies have been tested in clinical trials so far, with encouraging results in solid tumour treatments.
2021 saw the launch of a global mRNA technology transfer centre. The idea is to support developing economies to increase their technical know-how on vaccine development and production.
It is hoped that in the near future mRNA vaccines will be widely produced not only in developed economies but also developing economies, combating many diseases and helping to fulfill the sustainable development goals worldwide.
Article courtesy of 360info.