CARB-X funds GlyProVac to develop a novel vaccine to prevent sepsis in newborns
CARB-X press release (2/29)
The Combating Antibiotic-Resistant Bacteria Biopharmaceutical Accelerator (CARB-X) this week announced $467,000 in funding to GlyProVac to develop a maternal vaccine that targets Escherichia coli, the bacteria mainly responsible for neonatal sepsis, which is the leading cause of death among infants and a particular challenge in low- and middle-income countries. The funding will specifically support the development of the vaccine candidate GPV02, which offers protection to newborns through the antibodies passed on by vaccinated expectant mothers in utero and through breast milk after birth. GPV02 uses a unique approach compared to other attempted protein-based bacterial vaccines because it involves previously undiscovered natural sugar modifications and uses BEMAP technology to allow the vaccine to imitate E. coli, preparing the immune system to recognize the bacterium in the case of
future infection.
Chikungunya vaccine approved for select groups by CDC advisory panel
STAT (2/28), features Valneva
Last week, the Advisory Group on Immunization Practices at the US Centers for Disease Control and Prevention (CDC) recommended Valneva’s Ixchiq chikungunya vaccine for some travelers and laboratory researchers at risk of contracting the mosquito-borne virus. The United States records about 100 to 200 chikungunya cases a year in people infected abroad by the virus, which is mainly found in parts of Central and South America, Africa, and Asia. The vaccine was licensed by the Food and Drug Administration last fall for adults—the first vaccine approved for chikungunya. CDC has indicated that it may later expand the recommendation for people living in US territories where the virus may spread.
Long-term data reveals SARS-CoV-2 infection and vaccine-induced antibody responses are long-lasting
Science Daily (2/26)
A new extensive, long-term analysis from the Icahn School of Medicine at Mount Sinai found that COVID-19 vaccines induce long-lasting antibody responses, debunking previous claims that mRNA-based vaccine immunity wanes quickly. The researchers examined in over 8,000 samples collected over three years in New York City how antibody responses changed after infections, during the first series of vaccinations, during booster vaccinations, and during breakthrough infections. They concluded that the major reason for breakthrough infections is the virus evolving to evade immunity rather than waning immunity. The results will, hopefully, not only encourage people to continue to get vaccine boosters but also to continue research into new vaccines and viral variants.