HOXA5-driven transcriptional program instructs lung development [ChIP-Seq]
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ABSTRACT: Despite the fundamental role of Hoxa5 in mouse development revealed by the well-characterized phenotypes of Hoxa5 mutant mice, HOXA5-dependent regulatory networks remain ill-defined. We generated a Hoxa5FLAG epitope-tagged mouse line to perform ChIP-seq experiments and uncover genome-wide occupancy of the HOXA5 protein. This was done in the developing lung tissue, in which Hoxa5 plays a predominant role since Hoxa5-/- mouse mutants die at birth from respiratory defects. ChIP-seq allowed us to define an in vivo HOXA5 binding motif and its widespread genome distribution in the embryonic lung. Combined with ATAC-seq assays and epigenetic analyses, HOXA5 targets were identified. They include Hox genes known to show expression changes in lungs from Hoxa5 null mutant embryos. Moreover, several key actors of lung morphogenesis were found to possess HOXA5-binding sites and appeared as potential targets of HOXA5. Impact of the loss of Hoxa5 function on their expression was confirmed by in situ hybridization. These targets include members of the FGF10, SHH, BMP4 and WNT2 signaling pathways. Altogether, these data unveil the crucial role of HOXA5 in the coordinated control of the signaling networks instructing lung development.
ORGANISM(S): Mus musculus
PROVIDER: GSE299120 | GEO | 2025/08/18
REPOSITORIES: GEO
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