Frontiers in Medicine (Feb 2022)

Primary Nasal Epithelial Cells as a Surrogate Cell Culture Model for Type-II Alveolar Cells to Study ABCA-3 Deficiency

  • Nicole C. Shaw,
  • Nicole C. Shaw,
  • Anthony Kicic,
  • Anthony Kicic,
  • Anthony Kicic,
  • Anthony Kicic,
  • Anthony Kicic,
  • Sue Fletcher,
  • Sue Fletcher,
  • Stephen D. Wilton,
  • Stephen D. Wilton,
  • Stephen M. Stick,
  • Stephen M. Stick,
  • Stephen M. Stick,
  • Stephen M. Stick,
  • André Schultz,
  • André Schultz,
  • André Schultz

DOI
https://doi.org/10.3389/fmed.2022.827416
Journal volume & issue
Vol. 9

Abstract

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ATP Binding Cassette Subfamily A Member 3 (ABCA-3) is a lipid transporter protein highly expressed in type-II alveolar (AT-II) cells. Mutations in ABCA3 can result in severe respiratory disease in infants and children. To study ABCA-3 deficiency in vitro, primary AT-II cells would be the cell culture of choice although sample accessibility is limited. Our aim was to investigate the suitability of primary nasal epithelial cells, as a surrogate culture model for AT-II cells, to study ABCA-3 deficiency. Expression of ABCA3, and surfactant protein genes, SFTPB and SFTPC, was detected in primary nasal epithelial cells but at a significantly lower level than in AT-II cells. ABCA-3, SP-B, and SP-C were detected by immunofluorescence microscopy in primary nasal epithelial cells. However, SP-B and SP-C were undetectable in primary nasal epithelial cells using western blotting. Structurally imperfect lamellar bodies were observed in primary nasal epithelial cells using transmission electron microscopy. Functional assessment of the ABCA-3 protein demonstrated that higher concentrations of doxorubicin reduced cell viability in ABCA-3 deficient nasal epithelial cells compared to controls in an assay-dependent manner. Our results indicate that there may be a role for primary nasal epithelial cell cultures to model ABCA-3 deficiency in vitro, although additional cell culture models that more effectively recapitulate the AT-II phenotype may be required.

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