New strategy for developing ‘next-generation’ malaria vaccines
November 3rd, 2009 - 2:21 pm ICT by ANI ( Leave a comment )Washington, Nov 3 (ANI): Experts have suggested a novel strategy for developing ‘next-generation’ malaria vaccines that will help targeting the long-term goal of eliminating and eradicating the deadly mosquito-borne disease.
While trials are underway testing the efficacy if GlaxoSmithKline Biologicals’ (GSK Bio) RTS, S malaria vaccine, experts linked to PATH Malaria Vaccine Initiative (MVI) have suggested new approaches.
While most malaria vaccine candidates use one or more components of the malaria parasite to elicit an immune response, another approach uses a weakened form of the whole parasite.
MVI is working with Sanaria Inc. to develop a novel vaccine candidate that uses this approach with Plasmodium falciparum. It is currently being tested in adult volunteers in the United States.
Like RTS,S, many of these studies are focused on the pre-erythrocytic approach. They aim to trigger the immune system to defend against the parasite as soon as it enters a person’s bloodstream or infects liver cells.
This prevents the parasite from maturing and multiplying in the liver, reentering the bloodstream, and infecting red blood cells.
Another approach targets the malaria parasite when it is most destructive: at the blood stage, when the parasite replicates rapidly in red blood cells. Blood-stage vaccines are not expected to block all infection. Instead, they aim to decrease the number of parasites in the blood, reducing the severity of malaria.
The researchers are also looking for vaccine candidates that block the transmission of malaria from mosquitoes to humans.
Transmission-blocking vaccines attempt to interrupt the life cycle of the parasite by inducing antibodies that prevent the parasite from maturing in the mosquito after it bites a vaccinated person.
The researchers also aim to develop vaccines against P. vivax, the less severe but more widespread malaria parasite affecting humans.
MVI plans to intensify its support for vivax approaches in hopes of eventually combining them with vaccines targeting P. falciparum.
As the number of potential malaria vaccine candidates increases, scientists will need new and better technologies to assess their potential efficacy and decide which should go forward.
MVI is supporting the refinement and development of both laboratory tools and methodologies for evaluating vaccine candidates in humans. (ANI)
- Vaccine slashes malaria risk by half - Jan 14, 2011
- Re-engineering mosquito's immunity to block malaria - Dec 29, 2011
- Promising new approach to blocking malaria transmission - Dec 05, 2010
- Breakthrough may pave way for new malaria drugs - Nov 27, 2011
- Monkeys main reservoir of human malaria in SE Asia - Apr 08, 2011
- Malaria-infected cells stiffen, block blood flow to brain and other organs - Dec 21, 2010
- New way found to kill malaria parasite - Mar 09, 2011
- How malaria parasites manage to outwit our immune system - Dec 01, 2009
- World's largest malaria vaccine trial begins in 7 African countries - Nov 04, 2009
- Now, 'needle-free' natural vaccine against malaria - Aug 12, 2010
- New drug starves malaria parasite to death - Dec 08, 2011
- New discovery opens up novel strategy for combating malaria - Mar 09, 2011
- Insecticide spray highly effective against malaria - Oct 13, 2011
- New discovery paves way for effective malaria vaccine - Jun 18, 2010
- Indian-origin scientist's malaria vaccine may eradicate the disease - Aug 16, 2009
Tags: adult volunteers, biologicals, bloodstream, falciparum, glaxosmithkline, immune response, liver cells, long term goal, malaria parasite, malaria vaccine initiative, malaria vaccines, mosquito borne disease, mvi, new strategy, novel strategy, novel vaccine, red blood cells, transmission of malaria, vaccine candidate, vaccine candidates
