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Target Concepts:
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Query: UMLS:C0029713 (
immaturity
)
4,335
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Neonates and infants, due to the
immaturity
in their adaptive immunity, are thought to depend largely on the innate immune system for protection against bacterial infection. However, the innate immunity-mediated antimicrobial response in neonates and infants is incompletely characterized. Here, we report that infant mice were more susceptible to microbial sepsis than adult mice, with significantly reduced bacterial clearance from the circulation and visceral organs. Infant PMNs exhibited less constitutive expression of the
chemokine receptor
CXCR2, and bacterial infection caused further reduction of PMN CXCR2 in infant mice compared with adult mice. This correlates with diminished in vitro chemotaxis of infant PMNs toward the chemoattractant CXCL2 and impaired in vivo recruitment of infant PMNs into the infectious site. Furthermore, consistent with the reduced antimicrobial response in vivo, infant macrophages displayed an impaired bactericidal activity with a defect in phagosome maturation after ingestion of either gram-positive or gram-negative bacteria. Thus, infant mice exhibit an increased vulnerability to microbial infection with delayed bacterial clearance, which is associated with the inefficiency in their innate phagocyte-associated antimicrobial functions characterized by defects in PMN recruitment and macrophage phagosome maturation during microbial sepsis.
...
PMID:Inefficient antimicrobial functions of innate phagocytes render infant mice more susceptible to bacterial infection. 2340 83
Respiratory syncytial virus (RSV) infects and causes disease in infants and reinfects with reduced disease throughout life without significant antigenic change. In contrast, reinfection by influenza A virus (IAV) largely requires antigenic change. The adaptive immune response depends on antigen presentation by dendritic cells (DC), which may be too immature in young infants to induce a fully protective immune response against RSV reinfections. We therefore compared the ability of RSV and IAV to activate primary human cord blood (CB) and adult blood (AB) myeloid DC (mDC). While RSV and IAV infected with similar efficiencies, RSV poorly induced maturation and cytokine production in CB and AB mDC. This difference between RSV and IAV was more profound in CB mDC. While IAV activated CB mDC to some extent, RSV did not induce CB mDC to increase the maturation markers CD38 and CD86 or CCR7, which directs DC migration to lymphatic tissue. Low CCR7 surface expression was associated with high expression of CCR5, which keeps DC in inflamed peripheral tissues. To evaluate a possible inhibition by RSV, we subjected RSV-inoculated AB mDC to secondary IAV inoculation. While RSV-inoculated AB mDC responded to secondary IAV inoculation by efficiently upregulating activation markers and cytokine production, IAV-induced CCR5 downregulation was slightly inhibited in cells exhibiting robust RSV infection. Thus, suboptimal stimulation and weak and mostly reversible inhibition seem to be responsible for inefficient mDC activation by RSV. The inefficient mDC stimulation and immunological
immaturity
in young infants may contribute to reduced immune responses and incomplete protection against RSV reinfection.
IMPORTANCE
Respiratory syncytial virus (RSV) causes disease early in life and can reinfect symptomatically throughout life without undergoing significant antigenic change. In contrast, reinfection by influenza A virus (IAV) requires antigenic change. The adaptive immune response depends on antigen presentation by dendritic cells (DC). We used myeloid DC (mDC) from cord blood and adult blood donors to evaluate whether immunological
immaturity
contributes to the inability to mount a fully protective immune response to RSV. While IAV induced some activation and
chemokine receptor
switching in cord blood mDC, RSV did not. This appeared to be due to a lack of activation and a weak and mostly reversible inhibition of DC functions. Both viruses induced a stronger activation of mDC from adults than mDC from cord blood. Thus, inefficient stimulation of mDC by RSV and immunological
immaturity
may contribute to reduced immune responses and increased susceptibility to RSV disease and reinfection in young infants.
...
PMID:Lack of Activation Marker Induction and Chemokine Receptor Switch in Human Neonatal Myeloid Dendritic Cells in Response to Human Respiratory Syncytial Virus. 3148 54
