Anonymous ID: 71487a June 18, 2021, 4:21 p.m. No.64326   🗄️.is 🔗kun   >>4327 >>4386 >>4391 >>4392 >>4395 >>4397 >>4402

Yay, we won't need HCQ anymore because a new mRNA vaccine... Oh....uhm....

 

mRNA vaccine yields full protection against malaria in mice

 

by Walter Reed Army Institute of Research

June 18, 2021

 

Scientists from the Walter Reed Army Institute of Research and Naval Medical Research Center partnered with researchers at the University of Pennsylvania and Acuitas Therapeutics to develop a novel vaccine based on mRNA technology that protects against malaria in animal models, publishing their findings in npj Vaccines.

 

In 2019, there were an estimated 229 million cases of malaria and 409,000 deaths globally, creating an extraordinary cost in terms of human morbidity, mortality, economic burden, and regional social stability. Worldwide, Plasmodium falciparum is the parasite species which causes the vast majority of deaths. Those at highest risk of severe disease include pregnant women, children and malaria naïve travelers. Malaria countermeasures development has historically been a priority research area for the Department of Defense as the disease remains a top threat to U.S. military forces deployed to endemic regions.

 

A safe, effective malaria vaccine has long been an elusive target for scientists. The most advanced malaria vaccine is RTS,S, a first-generation product developed in partnership with WRAIR. RTS,S is based on the circumsporozoite protein of P. falciparum, the most dangerous and widespread species of malaria parasite. While RTS,S is an impactful countermeasure in the fight against malaria, field studies have revealed limited sterile efficacy and duration of protection. The limitations associated with RTS,S and other first-generation malaria vaccines have led scientists to evaluate new platforms and second-generation approaches for malaria vaccines.

 

"Recent successes with vaccines against COVID-19 highlight the advantages of mRNA-based platforms—notably highly targeted design, flexible and rapid manufacturing and ability to promote strong immune responses in a manner not yet explored," said Dr. Evelina Angov, a researcher at WRAIR's Malaria Biologics Branch and senior author on the paper. "Our goal is to translate those advances to a safe, effective vaccine against malaria."

 

Like RTS,S, the vaccine relies on P. falciparum's circumsporozoite protein to elicit an immune response. However, rather than administering a version of the protein directly, this approach uses mRNA—accompanied by a lipid nanoparticle which protects from premature degradation and helps stimulate the immune system— to prompt cells to code for circumsporozoite protein themselves. Those proteins then trigger a protective response against malaria but cannot actually cause infection.

 

"Our vaccine achieved high levels of protection against malaria infection in mice," said Katherine Mallory, a WRAIR researcher at the time of the article's submission and lead author on the paper. "While more work remains before clinical testing, these results are an encouraging sign that an effective, mRNA-based malaria vaccine is achievable."

 

https://medicalxpress.com/news/2021-06-mrna-vaccine-yields-full-malaria.html

Anonymous ID: 71487a June 18, 2021, 5:15 p.m. No.64332   🗄️.is 🔗kun   >>4333 >>4334 >>4386 >>4391 >>4392 >>4395 >>4397 >>4402

>>64331

Oh what a tangled web....

 

CureVac

 

ABOUT US

Sustainable change in biomedical research

We are pioneering the development of a completely new class of drugs based on the messenger RNA (mRNA). The basic principle is the use of this molecule as a data carrier for information, with the help of which the body itself can produce its own active substances to combat various diseases.

 

It all began with an unexpected discovery. CureVac’s founder, Dr. Ingmar Hoerr (a doctoral student at the time), discovered that when it was administered directly into tissue, the historically unstable biomolecule mRNA could be used as a therapeutic vaccine or agent after optimization—no complicated reformulations or molecular packaging needed.

 

We built CureVac from life’s building blocks

With a single discovery, CureVac opened the world up to the potential of mRNA to treat diseases and create vaccines. Officially founded in 2000, CureVac is the world’s first company to successfully harness mRNA for medical purposes—because we saw opportunities where others saw obstacles. Today, we’re more than 700 passionate people strong, each one committed to using the clinical potential of our proprietary mRNA technology to provide tailored solutions for those with the greatest medical needs.

 

Acuitas Therapeutics (working with Walter Reid)

CureVac cooperates with Acuitas Therapeutics Ltd, a company specializing in the development of lipid nanoparticle (LNP) delivery systems for molecular therapeutics. This collaboration will allow CureVac to access the full patent portfolio and know-how of Acuitas and its lipid technology. The objective of the collaboration is the development of LNP-formulated mRNA product candidates.

 

Arcturus Therapeutics

CureVac has entered into a collaboration with Arcturus Therapeutics Ltd. (NASDAQ:ARCT), an RNA medicines company, to access the full suite of Arcturus’ lipid-mediated delivery intellectual property to enable the development of mRNA product candidates.

 

“If we can teach the body to create its own natural defenses, we can revolutionize the way we treat and prevent diseases.”

 

Bill & Melinda Gates Foundation

The common goal of the partnership between CureVac and the Bill & Melinda Gates Foundation is to develop mRNA-based vaccines against various infectious diseases which have an enormous impact on global health.