The mRNA tech we used against COVID could help us finally beat malaria | Engadget


The scientific communitys response to COVID-19 has been nothing short of Herculean. against the novel virus in less than a year and we have mRNA-based technology to thank for it. The discovery that, instead of injecting semi-dead viruses into ourselves, we can trick our bodies into generating an immune response by instigating it to produce protein fragments has been a revolution to the field of immunology. As vaccination rates for the current pandemic continue to climb, the medical community is looking ahead to turn this powerful genomic weapon against myriad other deadly diseases. And .

The vaccine field has been forever transformed and forever advanced because of COVID-19, Dr. Dan Barouch, director of the Center for Virology and Vaccine Research at Harvard Medical School, told the in March.

According to the , some 290 million people are infected with malaria annually and at least 400,000 people die of the disease each year predominantly young children, the elderly and the infirm making it the worlds most pervasive parasitic disease. Symptoms involve ongoing cyclical attacks” chills and shivering followed by fevers followed by chills followed by fevers.

Safe, effective, affordable vaccines could play a critical role in defeating malaria, Dr Robert Newman, Director of WHOs said in 2013. Despite all the recent progress countries have made, and despite important innovations in diagnostics, drugs and vector control, the global burden of malaria remains unacceptably high.

Researchers have sought a vaccine for Malaria nearly since it was first confirmed in 1897. However, progress has been slow going and the reasons for that are, multiple and reside in the complexity of the parasite, which expresses over 5,000 proteins during its different life stages, the intricate interplay between parasite biology and host immunity, a lack of adequate resources and a lack of effective global cooperation, wrote Giampietro Corradin and Andrey Kajava, professors at the University of Lausanne and University of Montpellier, respectively, in the journal in 2014.

But is set to turn that dynamic on its ear. In a report published to the April issue of , Mehreen Datoo, study author and clinical research fellow at Oxfords Jenner Institute, and her team revealed that they had developed a vaccine candidate that demonstrated efficacy of 77 percent after 12 months of inoculation. At least, it did as part of its Phase IIb trials, which involved more than 450 children, ages 5-17 months, living in Burkina Faso. Dubbed the , this marks the first time that such a potential treatment for the disease has met or exceeded the goal of 75 percent efficacy.

Malaria is one of the leading causes of childhood mortality in Africa, Professor Charlemagne Oudraogo, Burkina Fasos Minister of Health, told in April. We have been supporting trials of a range of new vaccine candidates in Burkina Faso and these new data show that licensure of a very useful new malaria vaccine could well happen in the coming years. That would be an extremely important new tool for controlling malaria and saving many lives.

The results are so encouraging in fact, the researchers (in coordination with ) have already started recruiting for the Phase III trials with 4,800 children, aged 5-36 months, across four African countries. And we have mRNA technology to thank for it.

A primary advantage mRNA-based treatments have over their conventional drug development counterparts is that the genetic method is generalizable, said Dr. Stephen Floor, Assistant Professor at UCSFs Department of Cell & Tissue Biology, and lead researcher at the located therein.

National Human Genome Research Institute

If you are making a traditional small molecule or an antibody, there’s a lot of optimization and development that has to go into it, he noted. And often those rules are not well defined. You can’t say, because this particular molecule worked well on this protein, I predict that this other molecule will work on this related protein.

DNA the genetic material that invariably makes more Idiocracy-adjunct clowns every time yall refuse to slip on a jimmy is composed of twin-stranded, reflected, connected amino acid pairs. Basically, bits of microscopic meat that tell your progenys cells how to make more of themselves, while hopefully making the most of them that get made look as little as possible as your local famous monarch.

However, with mRNA, we understand the rules of how to write particular sequences that will make proteins, Floor continued, though we still havent fully figured out how to instruct mRNA to target specific cells. Luckily, when it comes to antibodies, precise targeting is not necessary because your immune system wont care where the protein came from, only that it registers as a foreign threat. That’s the reason why it’s been so effective for COVID, he said. And that’s the reason why it’s likely to be effective for many other contexts.

Those other contexts are myriad. Such mRNA-based treatments have already been investigated as candidates for everything from the flu to Zika, rabies, tuberculosis, hepatitis B, cystic fibrosis, HIV () even cancer. , an mRNA-based treatment would instigate the patients cells to build protein fragments that mimic a tumors mutated genetics the same way the COVID vaccine got cells to recreate the virus surface protein spikes, and with the same immune system response.

mRNA vaccines can be used to target almost any pathogen, Dr. John Cooke, medical director of the RNA Therapeutics Program at the Houston Methodist Research Institute, told AAMC. You put in the code for a particular protein that stimulates an immune response. Its essentially unlimited.

But understand that this is not a silver bullet to use against any and all human diseases. Nor will they be developed anywhere near as quickly as the Moderna and Pfizer COVID vaccines were. Researchers have been working on an HIV vaccine for three decades so far with very little progress to show for it. Although mRNA technology may be able to drastically shorten drug development times, I dont think well end up in a situation where every vaccine is going to be developed in a year, Dr. Florian Krammer, from the Icahn School of Medicine at New Yorks Mount Sinai, warned.

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