Episodes of wheezing are very common in infancy but, despite their high pre
valence, their mechanism is still poorly understood. To better understand t
he airway inflammation of wheezing infants, we examined cells of the bronch
oalveolar lavage (BAL), focusing on the phenotype of lymphocytes and macrop
hages by using cytofluorimetry. Twenty-one wheezers (mean age 15.4 months)
and seven non-wheezers (mean age 24.1 months) were studied. BAL was collect
ed at fiberoptic bronchoscopy. Total and differential cell counts were simi
lar in both Populations. Eosinophils were not detected in the BAL fluid. Th
e cell-surface markers CD2, CD3, CD4, CD7, CD8, CD19, and CD45 were studied
for the lymphocyte sub-population analysis. The cell-surface markers CD14,
CD54, CD62L. and human leucocyte antigen (HLA)DR were studied for the macr
ophage sub-population analysis. A significant increase in the CD8(+) lympho
cyte population (p = 0.03) was observed in wheezers (median 43.1%, 25-75% p
ercentile: 30.1-54.9%), as compared to non-wheezers (median 29.3%, 25-75% p
ercentile: 13.5-34.7%). A significantly (p = 0.04) decreased expression of
HLA-DR (mean fluorescence intensity [MFI]) was detected in the macrophage p
opulation of the wheezers (median MFI, 7,016; range 2135-7986). as compared
to non-wheezers (median MFI, 8,369: range: 6478-8860). The results of the
present study suggest that viral infection may have induced a CD8+ response
in BAL cells.