Circulating Concentrations of Chemokines in Cord Blood, Neonates, and Adults

Chemokines are critical for the movement of leukocytes. Chemotaxis is deficient in neonates, particularly those delivered prematurely, and this likely contributes to their increased vulnerability to sepsis. The concentrations of circulating chemokines in neonates have not been reported, nor is it known whether low chemokine concentrations contribute to their defective chemotaxis. We hypothesized that serum concentrations of chemokines 1) would be lower in preterm than term neonates, and 2) would be lower in preterm and term neonates than adults. Samples were obtained from preterm and term neonates with normal neutrophil and eosinophil counts, umbilical cord blood samples from pregnancies without clinical evidence of intra-amniotic infection, and healthy adult volunteers. The concentrations of epithelial neutrophil activating peptide-78, growth-related oncogene-α, eotaxin, RANTES (regulated upon activation, normal T cell expressed and secreted), and macrophage inflammatory protein-1α were measured using specific ELISA. Serum concentrations from preterm infants were either similar to or higher than those measured in term neonates and adults. We conclude that the chemotactic defect observed in premature neonates is not the result of diminished circulating concentrations of any of the specific chemokines we measured.

[1]  R. Ehrenkranz,et al.  Mediators of fetal inflammation in extremely low gestational age newborns. , 2001, Cytokine.

[2]  C. Mantel,et al.  Chemokines, chemokine receptors and hematopoiesis , 2000, Immunological reviews.

[3]  A. Maghazachi Intracellular signaling events at the leading edge of migrating cells. , 2000, The international journal of biochemistry & cell biology.

[4]  R. Carr Neutrophil Production and Function in Newborn Infants , 2000, British journal of haematology.

[5]  A. Hutson,et al.  Granulocyte colony-stimulating factor serum and urine concentrations in neutropenic neonates before and after intravenous administration of recombinant granulocyte colony-stimulating factor. , 2000, Pediatrics.

[6]  W. Ho,et al.  C-C chemokine profile of cord blood mononuclear cells: selective defect in RANTES production. , 2000, Blood.

[7]  K. Steinberg,et al.  Expression and function of the chemokine receptors CXCR1 and CXCR2 in sepsis. , 1999, Journal of immunology.

[8]  J. Dambrosia,et al.  Neonatal cytokines and coagulation factors in children with cerebral palsy , 1998, Annals of neurology.

[9]  C. Niemeyer,et al.  Plasma Levels and Gene Expression of Granulocyte Colony-Stimulating Factor, Tumor Necrosis Factor-α, Interleukin (IL)-1β, IL-6, IL-8, and Soluble Intercellular Adhesion Molecule-1 in Neonatal Early Onset Sepsis , 1998, Pediatric Research.

[10]  P. S. Grover,et al.  Neonatal sepsis in hospital born babies. , 1998, The Journal of communicable diseases.

[11]  K. Laczika,et al.  Prognostic Value of MIP-1α, TGF-β2, sELAM-1, and sVCAM-1 in Patients with Gram-Positive Sepsis , 1998 .

[12]  A. Luster,et al.  Chemokines--chemotactic cytokines that mediate inflammation. , 1998, The New England journal of medicine.

[13]  K. Laczika,et al.  Prognostic value of MIP-1 alpha, TGF-beta 2, sELAM-1, and sVCAM-1 in patients with gram-positive sepsis. , 1998, Clinical immunology and immunopathology.

[14]  C. Spong,et al.  Fetal but not maternal serum cytokine levels correlate with histologic acute placental inflammation. , 1997, American journal of perinatology.

[15]  P. Sánchez,et al.  Revised reference ranges for circulating neutrophils in very-low-birth-weight neonates. , 1994, Pediatrics.

[16]  K. Schibler,et al.  Production of granulocyte colony-stimulating factor in vitro by monocytes from preterm and term neonates. , 1993, Blood.

[17]  C. Rosenfeld,et al.  Neonatal blood cell count in health and disease. II. Values for lymphocytes, monocytes, and eosinophils. , 1985, The Journal of pediatrics.