Disrupted Pulmonary Vasculature and Decreased Vascular Endothelial Growth Factor, Flt-1, and TIE-2 in Human Infants Dying with Bronchopulmonary Dysplasia

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Disrupted Pulmonary Vasculature and Decreased Vascular Endothelial Growth Factor, Flt-1, and TIE-2 in Human Infants Dying with Bronchopulmonary Dysplasia

ABHAY J. BHATT, GLORIA S. PRYHUBER, HEIDIE HUYCK, RICHARD H. WATKINS, LEON A. METLAY, and WILLIAM M. MANISCALCO

Strong Children's Research Center (Division of Neonatology), Children's Hospital at Strong, and Department of Pathology and Laboratory Medicine, University of Rochester School of Medicine, Rochester, New York

An abnormal pulmonary vasculature may be an important component of bronchopulmonary dysplasia (BPD). We examined human infantlung for the endothelial cell marker PECAM-1 and for angiogenicfactors and their receptors. Lung specimens were collected prospectivelyat ~ 6 h after death. The right middle lobe was inflation fixedand part of the right lower lobe was flash frozen. We comparedlungs from infants dying with BPD (n = 5) with lungs from infantsdying from nonpulmonary causes (n = 5). The BPD group was significantlymore premature and had more days of ventilator and supplementaloxygen support, but died at a postconceptional age similar tocontrol infants. PECAM-1 protein and mRNA were decreased in theBPD group. PECAM-1 immunohistochemistry showed the BPD group haddecreased staining intensity and abnormal distribution of alveolarcapillaries. The dysmorphic capillaries were frequently in theinterior of thickened alveolar septa. The BPD group had decreasedvascular endothelial growth factor (VEGF) mRNA and decreased VEGFimmunostaining, compared with infants without BPD. Messages forthe angiogenic receptors Flt-1 and TIE-2 were decreased in theBPD group. We conclude that infants dying with BPD have abnormalalveolar microvessels and that disordered expression of angiogenicgrowth factors and their receptors may contribute to theseabnormalities.

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