| Experiment Id | GSE113320 | Name | Early lineage commitment defines alveolar epithelial ontogeny in the lung |
| Experiment Type | RNA-Seq | Study Type | Baseline |
| Source | GEO | Curation Date | 2024-01-26 |
| description | During the step-wise specification and differentiation of tissue specific multipotent progenitor cells, lineage-specific transcriptional networks are either activated or repressed to orchestrate progenitor cell commitment. The gas exchange niche in the lung contains two major epithelial cell types, alveolar type 1 (AT1) and type 2 (AT2) cells, and the timing of lineage commitment of these cells is critical for correct formation of this niche and postnatal survival. To define the ontogeny of alveolar cell fate in the lung, we used lineage tracing studies combined with spatially specific mRNA transcript and protein expression combined with single cell RNA-seq analysis. These studies reveal that commitment to alveolar epithelial cell fate occurs far earlier than previously appreciated, concomitant with the proximal-distal specification of epithelial progenitors and branching morphogenesis. Using a novel dual lineage tracing system, we show that a small population of alveolar cells express markers of both AT1 and AT2 cells, whose fate is ultimately restricted to a single lineage. However, these bi-transcriptional cells generate only a minor portion of the mature alveolar epithelium. These data reveal a new paradigm of organ formation where early lineage commitment occurs during the nascent stages of development coincident with broad tissue patterning processes including axial patterning of the endoderm and branching morphogenesis. Lungs were harvested from a e15.5 and e17.5 Nkx2-1-GFP embryos and all were combined from a single litter. Dead cells were negatively selected using DAPI and positively selected by expression of GFP. Cells were loaded on to a GemCode instrument (10X Genomics) to produce single-cell bar-coded droplets using 10X Single Cell 3' v2 chemistry. Libraries generated were sequenced across at least one lane on the Illumina HiSeq2500 instrument with the HiSeq Rapid SBS kit. |
