Depletion of circulating regulatory T cells during severe respiratory syncytial virus infection in young children

RAIDEN, S; PANDOLFI, J.; PASYASLIAN, F.; ANDERSON, M.; RIVAROLA, N; FERRERO, F; URTASUN, M.; FAINBOIM, L.; GEFFNER, J; ARRUVITO, L.

AMERICAN JOURNAL OF RESPIRATORY AND CRITICAL CARE MEDICINE

AMER THORACIC SOC

Lugar: New York; Año: 2014

1073-449X

Respiratory syncytial virus (RSV) is the main cause of viral lower respiratory tractillnessininfancy and early childhood.Each year, RSVis estimated to cause 34 million cases of lung infection and the deaths of up to199,000 childrenless than5 years of ageworldwide.Children are usually infected by RSV during the first year of life, and virtually all by 3 years of age. Although in most cases the infection induces mild illness of the upper airways, 2 to 5% experience a severe bronchiolitis that requires hospitalization and respiratory support in an intensive care unit. These patients show later a high susceptibility to develop recurrent wheeze and asthma (1, 2). Our current understanding of the host response to RSV in humans remains rudimentary, because most observations have been performed in animal models that do not adequately reflect the course of human infection (3, 4). There is compelling evidence, however, that the host immune response has a prominent role in the pathogenesis of severe RSV infection (3, 4). FOXP31CD41 regulatory T cells (Tregs) have emerged as the most important cells able to prevent potentially harmful immune responses (5). Observations made in animal models clearly demonstrated that Tregs play a critical role in controlling lung inflammation in the course of RSV infection (6?8). The presence and function of Tregs during human RSV infection have not been yet analyzed. We here show that severe RSV infection of young children induces the selective depletion of peripheral blood Tregs.