Children (May 2021)

Perinatal Inflammation: Could Partial Blocking of Cell Adhesion Molecule Function Be a Solution?

  • Nikolaos Vrachnis,
  • Dimitrios Zygouris,
  • Dionysios Vrachnis,
  • Nikolaos Roussos,
  • Nikolaos Loukas,
  • Nikolaos Antonakopoulos,
  • Georgios Paltoglou,
  • Stavroula Barbounaki,
  • Georgios Valsamakis,
  • Zoi Iliodromiti

DOI
https://doi.org/10.3390/children8050380
Journal volume & issue
Vol. 8, no. 5
p. 380

Abstract

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In spite of the great advances made in recent years in prenatal and perinatal medicine, inflammation can still frequently result in injury to vital organs and often constitutes a major cause of morbidity. It is today well established that in neonates—though vulnerability to infection among neonates is triggered by functional impairments in leukocyte adhesion—the decreased expression of cell adhesion molecules also decreases the inflammatory response. It is also clear that the cell adhesion molecules, namely, the integrins, selectins, and the immunoglobulin (Ig) gene super family, all play a crucial role in the inflammatory cascade. Thus, by consolidating our knowledge concerning the actions of these vital cell adhesion molecules during the prenatal period as well as regarding the genetic deficiencies of these molecules, notably leukocyte adhesion deficiency (LAD) I, II, and III, which can provoke severe clinical symptoms throughout the first year of life, it is anticipated that intervention involving blocking the function of cell adhesion molecules in neonatal leukocytes has the potential to constitute an effective therapeutic approach for inflammation. A promising perspective is the potential use of antibody therapy in preterm and term infants with perinatal inflammation and infection focusing on cases in which LAD is involved, while a further important scientific advance related to this issue could be the combination of small peptides aimed at the inhibition of cellular adhesion.

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