Developmental Regulation of the type-A Gamma-Aminobutyric Acid Receptor (GABA-AR) Signaling in the Fetal Rat Lung

Ahmed, Mijhgan

30 July 2009

The fetal lung epithelium secretes fluid into the potential pulmonary air-spaces by actively transporting chloride (Cl¯) into the lung lumen. This Cl¯-driven fluid secretion declines with the progression of lung development. Recent studies demonstrate that the A-type γ-aminobutyric acid receptor (GABAAR), a Cl¯ channel, and glutamic acid decarboxylase (GAD65/67), key GABA-synthesizing enzymes, are expressed in adult pulmonary epithelial cells (ECs), forming an autocrine GABAAR signaling system. My thesis study revealed that GABAAR π- and β2- subunits are expressed in high levels in the fetal rat lung epithelium and decline at birth, consistent with pattern of fluid secretion. Immunohistochemistry showed distinct profiles of expression for GABAAR subunits and GAD65/67. Treatment of alveolar ECs with dexamethasone reduced the GABAAR π-subunit expression. These results suggest that the GABAAR signaling in the fetal pulmonary epithelium is developmentally regulated and the GABAAR expression and GABAAR-mediated Cl¯ secretion in pulmonary ECs may be regulated by glucosteroids.

Lung Development

Fluid Secretion in the Mammalian Lungs

Cell and Molecular Biology

0719

0307

0306

0433

0379

0566

0564

0317

0571

0350

Developmental Regulation of the type-A Gamma-Aminobutyric Acid Receptor (GABA-AR) Signaling in the Fetal Rat Lung

Ahmed, Mijhgan

30 July 2009

The fetal lung epithelium secretes fluid into the potential pulmonary air-spaces by actively transporting chloride (Cl¯) into the lung lumen. This Cl¯-driven fluid secretion declines with the progression of lung development. Recent studies demonstrate that the A-type γ-aminobutyric acid receptor (GABAAR), a Cl¯ channel, and glutamic acid decarboxylase (GAD65/67), key GABA-synthesizing enzymes, are expressed in adult pulmonary epithelial cells (ECs), forming an autocrine GABAAR signaling system. My thesis study revealed that GABAAR π- and β2- subunits are expressed in high levels in the fetal rat lung epithelium and decline at birth, consistent with pattern of fluid secretion. Immunohistochemistry showed distinct profiles of expression for GABAAR subunits and GAD65/67. Treatment of alveolar ECs with dexamethasone reduced the GABAAR π-subunit expression. These results suggest that the GABAAR signaling in the fetal pulmonary epithelium is developmentally regulated and the GABAAR expression and GABAAR-mediated Cl¯ secretion in pulmonary ECs may be regulated by glucosteroids.

Lung Development

Fluid Secretion in the Mammalian Lungs

Cell and Molecular Biology

0719

0307

0306

0433

0379

0566

0564

0317

0571

0350