- Vaccine under development provides the most comprehensive coverage to date.
- The proposed vaccine provoked immune response to 72 forms of S. pneumoniae.
- Streptococcus pneumoniae is the bacteria that causes pneumonia.
A new vaccine under development could deal another blow to the disease epidemic, lowering the number of deaths even further by targeting dozens of additional strains of S. pneumoniae, and anticipating future versions of the bacteria responsible for pneumococcal disease, which includes sepsis and meningitis.
The vaccine provoked an immune response to 72 forms of S. pneumoniae -- including the 23 mentioned above -- in lab tests on animals, according to new research published today (Oct. 20, 2017) in the journal Science Advances. The study represents the "most comprehensive" coverage of pneumococcal disease to date, researchers say.
In 2004, pneumonia killed more than 2 million children worldwide, according to the World Health Organization. By 2015, the number was less than 1 million.
"We've made tremendous progress fighting the spread of pneumonia, especially among children. But if we're ever going to rid ourselves of the disease, we need to create smarter and more cost-effective vaccines," says Blaine Pfeifer, Ph.D., associate professor of chemical and biological engineering at the University at Buffalo's School of Engineering and Applied Sciences, and the study's co-lead author.
The limitation of existing vaccines
Each strain of S. pneumoniae contains unique polysaccharides. Vaccines such as Prevnar 13 and Synflorix connect these sugars -- by the sharing of an electron -- to a protein called CRM197. The process, known as a covalent bond, creates a potent vaccine that prompts the body to find and destroy bacteria before they colonize the body.
While effective, creating covalent bonds for each strain of S. pneumoniae is time-consuming and expensive. Plus, this type of immunization, known as a conjugate vaccine, prompts the body to eliminate each of the targeted bacteria types -- regardless of whether the bacteria is idle or attacking the body.
Another vaccine, Pneumovax 23, contains sugars of 23 of the most common types of S. pneumoniae. However, the immune response it provokes is not as strong as Prevnar because the sugars are not covalently linked.
"Traditional vaccines completely remove bacteria from the body. But we now know that bacteria -- and in a larger sense, the microbiome -- are beneficial to maintaining good health," says Charles H. Jones, the study's other co-lead author. "What's really exciting is that we now have the ability -- with the vaccine we're developing -- to watch over bacteria and attack it only if it breaks away from the colony to cause an illness. That's important because if we leave the harmless bacteria in place, it prevents other harmful bacteria from filling that space."
Jones, who earned a Ph.D. while working in Pfeifer's lab, has formed a company, Abcombi Biosciences, to bring the vaccine and other pharmaceutical products to market.
How the new vaccine works
Varieties of S. pneumoniae not covered by current immunizations are responsible for a small portion -- for example, 7 to 10 percent among U.S. children -- of pneumonia, meningitis and other cases of pneumococcal disease.
But officials worry that will change, as these less common forms -- and, potentially, yet-to-be discovered antimicrobial resistant strains -- replace the 23 more common types targeted by current immunizations.
According to results from the study, the new vaccine provokes a strong immune response (comparable to Prevnar) and is engineered in a way that makes it easy to add sugars (like Pneumovax) for a broad immune response.
Key to the technology is a liposome -- a tiny liquid-filled bubble made of fat -- that acts as a storage tank for the sugars. Because the sugars are not covalently bonded, it's possible that the liposome could host all of the sugars that identify individual strains of S. pneumoniae.
The research team added proteins at the surface of the liposome (also non-covalently) which, together with the sugars, provoke immunotherapy. According to tests performed on mice and rabbits, the new vaccine stimulated an immune response to 72 of the more than 90 known strains of S. pneumoniae. In many cases, it outperformed Prevnar and Pneumovax.
"The advantage of our approach is that we don't have to apply the more complex covalent chemistry that is required for Prevnar," Pfeifer says. "As a result, we can extend beyond the 13 types of sugars, potentially providing universal coverage against bacteria that cause pneumonia, meningitis, sepsis and other types of pneumococcal disease. It holds the promise of saving hundreds of thousands of lives each year."
- Charles H. Jones et al. Comprehensive Vaccine Design for Commensal Disease Progression, Journalhttp:dx.doi.org/10.1126/sciadv.1701797
Please use one of the following formats to cite this article in your essay, paper or report:
Chrisy Ngilneii. (2017, October 21). New Vaccine Offers Universal Prevention from Pneumonia. Medindia. Retrieved on Aug 18, 2022 from https://www.medindia.net/news/healthwatch/new-vaccine-offers-universal-prevention-from-pneumonia-173949-1.htm.
Chrisy Ngilneii. "New Vaccine Offers Universal Prevention from Pneumonia". Medindia. Aug 18, 2022. <https://www.medindia.net/news/healthwatch/new-vaccine-offers-universal-prevention-from-pneumonia-173949-1.htm>.
Chrisy Ngilneii. "New Vaccine Offers Universal Prevention from Pneumonia". Medindia. https://www.medindia.net/news/healthwatch/new-vaccine-offers-universal-prevention-from-pneumonia-173949-1.htm. (accessed Aug 18, 2022).
Chrisy Ngilneii. 2021. New Vaccine Offers Universal Prevention from Pneumonia. Medindia, viewed Aug 18, 2022, https://www.medindia.net/news/healthwatch/new-vaccine-offers-universal-prevention-from-pneumonia-173949-1.htm.