Frontiers in Medicine (Apr 2020)

Single-Cell Transcriptional Profiling of Cells Derived From Regenerating Alveolar Ducts

  • Alexandra B. Ysasi,
  • Robert D. Bennett,
  • Willi Wagner,
  • Cristian D. Valenzuela,
  • Andrew B. Servais,
  • Akira Tsuda,
  • Saumyadipta Pyne,
  • Shuqiang Li,
  • Jonna Grimsby,
  • Prapti Pokharel,
  • Kenneth J. Livak,
  • Maximilian Ackermann,
  • Paul C. Blainey,
  • Paul C. Blainey,
  • Steven J. Mentzer

DOI
https://doi.org/10.3389/fmed.2020.00112
Journal volume & issue
Vol. 7

Abstract

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Lung regeneration occurs in a variety of adult mammals after surgical removal of one lung (pneumonectomy). Previous studies of murine post-pneumonectomy lung growth have identified regenerative “hotspots” in subpleural alveolar ducts; however, the cell-types participating in this process remain unclear. To identify the single cells participating in post-pneumonectomy lung growth, we used laser microdissection, enzymatic digestion and microfluidic isolation. Single-cell transcriptional analysis of the murine alveolar duct cells was performed using the C1 integrated fluidic circuit (Fluidigm) and a custom PCR panel designed for lung growth and repair genes. The multi-dimensional data set was analyzed using visualization software based on the tSNE algorithm. The analysis identified 6 cell clusters; 1 cell cluster was present only after pneumonectomy. This post-pneumonectomy cluster was significantly less transcriptionally active than 3 other clusters and may represent a transitional cell population. A provisional cluster identity for 4 of the 6 cell clusters was obtained by embedding bulk transcriptional data into the tSNE analysis. The transcriptional pattern of the 6 clusters was further analyzed for genes associated with lung repair, matrix production, and angiogenesis. The data demonstrated that multiple cell-types (clusters) transcribed genes linked to these basic functions. We conclude that the coordinated gene expression across multiple cell clusters is likely a response to a shared regenerative microenvironment within the subpleural alveolar ducts.

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