Boosting Newborns' Immune Responses

June 13, 2009
Toll-like receptors (TLRs) on the surface of white blood cells provide a first line of defense against infection. But in newborns, most of them respond poorly -- except for TLR8. Levy and colleagues believe that agents that stimulate TLR8 could be given as vaccine adjuvants to enhance newborns' immune responses.

Newborn babies have immature immune systems, making them highly vulnerable to severe infections and unable to mount an effective immune response to most vaccines, thereby frustrating efforts to protect them. The World Health Organization estimates that more than 2 million newborns and infants less than 6 months of age die each year due to infection. Researchers at Children's Hospital Boston believe they have found a way to enhance the immune system at birth and boost newborns' vaccine responses, making infections like respiratory syncytial virus, pneumococcus and rotavirus much less of a threat.

Ofer Levy, MD, PhD and colleagues in Children's Division of Infectious Diseases have shown that the newborn functions differently than that of adults, but that one portion of the immune response is fully functional and can be harnessed to boost innate immunity in these tiny infants.

For more than a decade it's been known that people's first line of defense against infection is a group of receptors known as Toll-like receptors (TLRs) on the surface of certain white blood cells. Functioning like an early radar system, TLRs detect the presence of invading bacteria and viruses and signal other immune cells to mount a defense. People have 10 different kinds of TLRs, and Levy's team found that when most of them were stimulated, newborns' immune responses are very impaired -- with one important exception.

One TLR, known as TLR8, triggered a robust in antigen-presenting cells, which are crucial for vaccine responses, suggesting that agents that stimulate TLR8 could be used to enhance immune responses in , perhaps as adjuvants given along with vaccines. With the help of a $100,000 pilot grant from the Bill & Melinda Gates Foundation, Levy’s team is now validating their work in human cells and in animal models, and eventually want to test TLR8 stimulators - some of which are already available -- in human babies.

Levy's team is uncovering other differences in the newborn immune system that could lead to additional targets for drugs or vaccines. "As we better understand the molecular pathways that account for newborns' susceptibility to infections, we can leverage them to enhance their immune defenses," Levy says.

The ability to vaccinate newborns -- rather than wait until they reach 2 months of age -- would provide important global health benefits, adds Levy, whose lab is one of the few in the world to specifically focus on vaccination in newborns. "Birth is a point of contact with healthcare systems," he says. "If you could give a vaccine at birth, a much higher percentage of the population can be covered."

Source: Children's Hospital Boston (news : web)

Explore further: New research could lead to a vaccine for pneumococcus disease

Related Stories

Recommended for you

Machine Translates Thoughts into Speech in Real Time

December 21, 2009

(PhysOrg.com) -- By implanting an electrode into the brain of a person with locked-in syndrome, scientists have demonstrated how to wirelessly transmit neural signals to a speech synthesizer. The "thought-to-speech" process ...

Quantum Theory May Explain Wishful Thinking

April 14, 2009

(PhysOrg.com) -- Humans don’t always make the most rational decisions. As studies have shown, even when logic and reasoning point in one direction, sometimes we chose the opposite route, motivated by personal bias or simply ...

1 comment

Adjust slider to filter visible comments by rank

Display comments: newest first

gopher65
1 / 5 (1) Jun 13, 2009
This is good news.

Please sign in to add a comment. Registration is free, and takes less than a minute. Read more

Click here to reset your password.
Sign in to get notified via email when new comments are made.