Newborns are more susceptible to infections maybe due to their immature
and inexperienced immune systems. The most common dangerous condition in
newborns and infants are lower respiratory tract infections caused by
viruses, especially respiratory syncytial virus (RSV). A study published
on February 13th in
PLOS Pathogens shows how the immune system in the lungs during early life differs from the one in older children and adults.
Ideally, newborns could be protected against RSV by vaccination, but it
is known that the immune system in early life is less responsive to
"conventional" vaccines. Barney Graham and colleagues, from the US
National Institute of Allergy and Infectious Diseases, are working on
understanding the early immune system in order to develop effective
vaccines for newborns and infants.
The immune response to virus infection in the lung involves mobile
immune cells called dendritic cells (or DCs). After contact with a viral
intruder, the DCs move into adjacent lymph nodes where they activate
another type of immune cell, called CD8+ T cells, and thereby
orchestrate a massive, body-wide, virus-specific attack. Graham and
colleagues studied the behavior of these lung DCs in newborn mice and
compared it with that in older animals.
They found that the lung DC responses following RSV infection undergo
dramatic changes during the first weeks of life. One of the two subsets
active in adults was present in low numbers and functionally limited in
newborn mice. The second subset, called CD103+ DCs, is present in
similar numbers in newborn and adults after virus infection. Following
migration to the lymph nodes, CD103+ DCs initiate CD8+ T cell responses.
However, when newborn CD103+ DCs and CD8+ T cells interact, the results
are very different from the same interaction in older mice.
Depending on the age of the mice at the time of RSV infection, the CD103
DCs activate different subsets of CD8+ T cells. This suggests that DCs
from newborns take up, digest, and present parts of an intruding virus
to other immune cells in a fundamentally different way than in adults.
In addition, the researchers found that CD103+ DCs from newborn mice
have much lower expression of two critical "co-stimulatory" molecules
(called CD80 and CD86) on their surface. These co-stimulators directly
interact with a counterpart (called CD28) on the CD8+ T cells and in
doing so boost the immune response, something that is severely impaired
in neonatal mice. Dampening CD28-mediated stimulation in adult mice
demonstrated that limited CD28-mediated co-stimulatory support from
neonatal DCs may constitute one mechanism by which newborn and adult DCs
induce distinct CD8+ T cell responses.
"A better understanding of deficiencies in early-life immunity will
guide vaccine approaches that induce disease-sparing immune responses in
infants", the researchers say. "Our data suggest that the
CD80/CD86-CD28 axis may be exploited in the design of pediatric vaccines
to promote the generation of more "adult-like" immune responses".
Source:PLOS Pathogens
Newborns are more susceptible to infections maybe due to their immature
and inexperienced immune systems. The most common dangerous condition in
newborns and infants are lower respiratory tract infections caused by
viruses, especially respiratory syncytial virus (RSV). A study published
on February 13th in PLOS Pathogens shows how the immune system in the lungs during early life differs from the one in older children and adults.
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