Description
Pulmonary fibrosis (PF) is an intractable disorder with a poor prognosis. Although lung fibroblasts play central roles in PF, their key regulatory molecules remain unclear. We performed transcriptome analysis of lung fibroblasts from bleomycin- and silica-treated murine lungs and identified 55 hub transcription factors highly connected to gene modules differentially expressed in PF. To elucidate whether fibroblast-specific intervention against the hub transcription factor Srebf1 modulates pathogenic activation of lung fibroblasts in vivo, we intratracheally-transferred active form of Srebf1-overexpressed fibroblasts into bleomycin-treated lungs and performed global transcriptome analysis. Overall design: Active form of Srebf1-overexpressed fibroblasts and mock-expressed fibroblasts were intratracheally-transferred to B6 mice at day 5 post-administration of 2 mg/kg of bleomycin. Expression of active form of Srebf1 was induced by doxycycline administration at day 7 post-administration of 2 mg/kg of bleomycin. Donor cells were recovered at day 10 post--administration of 2 mg/kg of bleomycin by cell sorting. Global transcriptome of transferred fibroblasts was generated by 3'SAGE-seq using Ion Proton sequencer.