Expression Profiling Identifies Klf15 as a Glucocorticoid Target That Regulates Airway Hyperresponsiveness

K Masuno, SM Haldar, D Jeyaraj… - American journal of …, 2011 - atsjournals.org
K Masuno, SM Haldar, D Jeyaraj, CM Mailloux, X Huang, RA Panettieri Jr, MK Jain
American journal of respiratory cell and molecular biology, 2011atsjournals.org
Glucocorticoids (GCs), which activate GC receptor (GR) signaling and thus modulate gene
expression, are widely used to treat asthma. GCs exert their therapeutic effects in part
through modulating airway smooth muscle (ASM) structure and function. However, the
effects of genes that are regulated by GCs on airway function are not fully understood. We
therefore used transcription profiling to study the effects of a potent GC, dexamethasone, on
human ASM (HASM) gene expression at 4 and 24 hours. After 24 hours of dexamethasone …
Glucocorticoids (GCs), which activate GC receptor (GR) signaling and thus modulate gene expression, are widely used to treat asthma. GCs exert their therapeutic effects in part through modulating airway smooth muscle (ASM) structure and function. However, the effects of genes that are regulated by GCs on airway function are not fully understood. We therefore used transcription profiling to study the effects of a potent GC, dexamethasone, on human ASM (HASM) gene expression at 4 and 24 hours. After 24 hours of dexamethasone treatment, nearly 7,500 genes had statistically distinguishable changes in expression; quantitative PCR validation of a 40-gene subset of putative GR-regulated genes in 6 HASM cell lines suggested that the early transcriptional targets of GR signaling are similar in independent HASM lines. Gene ontology analysis implicated GR targets in controlling multiple aspects of ASM function. One GR-regulated gene, the transcription factor, Kruppel-like factor 15 (Klf15), was already known to modulate vascular smooth and cardiac muscle function, but had no known role in the lung. We therefore analyzed the pulmonary phenotype of Klf15−/− mice after ovalbumin sensitization and challenge. We found diminished airway responses to acetylcholine in ovalbumin-challenged Klf15−/− mice without a significant change in the induction of asthmatic inflammation. In cultured cells, overexpression of Klf15 reduced proliferation of HASM cells, whereas apoptosis in Klf15−/− murine ASM cells was increased. Together, these results further characterize the GR-regulated gene network in ASM and establish a novel role for the GR target, Klf15, in modulating airway function.
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