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Department of Pediatrics, Johns Hopkins University School of Medicine, Baltimore, Maryland 21287-2533
Mechanisms
responsible for regulation of pulmonary epithelial chloride-channel
expression in the perinatal period are under investigation to better
understand normal lung development and airway disease pathogenesis. The
ClC-2 epithelial chloride channel is regulated by changes in pH and
volume and is most abundant in lung during fetal development. In this
study, we identify and sequence the ClC-2 promoter, which is GC
rich and lacks a TATA box. By construction of a series of
promoter-luciferase constructs, a 67-bp GC box-containing sequence in
the promoter is shown to be critical to ClC-2 expression in primary and
immortalized fetal lung epithelial cells. Electrophoretic mobility
shift assays and antibody supershifts demonstrate that the Sp1 and Sp3
transcription factors are expressed in fetal lung nuclei and interact
with the GC box sequences in the promoter. Immunoblotting techniques
demonstrate that Sp1 and Sp3 are perinatally downregulated in the lung
with the same temporal sequence as ClC-2 downregulation. This work suggests that Sp1 and Sp3 activate
ClC-2 gene transcription
and that reduction in Sp1 and Sp3 at birth explains perinatal
downregulation of ClC-2 in the lung.
transcription; development; gene expression; ribonucleic acid polymerase II; epithelial cell
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