The vast majority of early-life hospital admissions globally highlight Respiratory Syncytial Virus (RSV), the leading cause of neonatal lower respiratory tract infections, as the major culprit behind the poor neonatal outcomes following respiratory infections. Unlike those of older children and adults, the immune system of neonates looks rather unique, therefore mostly counting on the innate immune system and antibodies of maternal origins. The collaborations between cells and immune compartments during infancy inclines to bias toward a T-helper 2 (Th2) immune profile and thereby away from a T-helper 1 (Th1) immune response. What makes it more problematic is that RSV infection also tends to elicit a stronger Th2-biased immune response and drive an aberrant allergy-like inflammation. It is thus evident how RSV infections potentially pave the way for wheezing recurrences and childhood asthma later in life. Surfactant, the essential lung substance for normal breathing processes in mammals, has immunomodulatory properties including lung collectins such as Surfactant Protein-A (SP-A), which is the most abundant protein component of surfactant. Deficiency of SP-A has been found to be associated with impaired pathogen clearance and exacerbated immune responses during infections. We therefore conducted a review of the literature to describe pathomechanisms of RSV infections during blunted neonatal immunity ultimately enabling allergy-like inflammatory events within the developing lungs, and where the protective humoral collectin SP-A potentially participates in the pulmonary immune homeostasis in the meantime.
Keywords: Immunotherapy; Infant; Innate Immunity; Recombinant Proteins and Peptides; Respiratory Infections; Respiratory Syncytial Virus; Surfactant.