Science and Research

The Preparation of Decellularized Mouse Lung Matrix Scaffolds for Analysis of Lung Regenerative Cell Potential

Lung transplantation is the only option for patients with end-stage lung disease, but there is a shortage of available lung donors. Furthermore, efficiency of lung transplantation has been limited due to primary graft dysfunction. Recent mouse models mimicking lung disease in humans have allowed for deepening our understanding of disease pathomechanisms. Moreover, new techniques such as decellularization and recellularization have opened up new possibilities to contribute to our understanding of the regenerative mechanisms involved in the lung. Stripping the lung of its native cells allows for unprecedented analyses of extracellular matrix and sets a physiologic platform to study the regenerative potential of seeded cells. A comprehensive understanding of the molecular pathways involved for lung development and regeneration in mouse models can be translated to regeneration strategies in higher organisms, including humans. Here we describe and discuss several techniques used for murine lung de- and recellularization, methods for evaluation of efficacy including histology, protein/RNA isolation at the whole lung, as well as lung slices level.

  • Bolukbas, D. A.
  • De Santis, M. M.
  • Alsafadi, H. N.
  • Doryab, A.
  • Wagner, D. E.

Keywords

  • Animals
  • Disease Models, Animal
  • Extracellular Matrix/*metabolism
  • Lung/*cytology
  • Lung Diseases/pathology/*therapy
  • Lung Transplantation/methods
  • Mice
  • Regeneration/*physiology
  • Tissue Engineering/*methods
  • *Tissue Scaffolds
  • *Biomaterial
  • *Decellularization
  • *Lung
  • *Precision cut lung slices
  • *Recellularization
  • *Scaffold
  • *Tissue engineering
Publication details
DOI: 10.1007/978-1-4939-9086-3_20
Journal: Methods in molecular biology (Clifton, N.J.)
Pages: 275-295 
Work Type: Original
Location: CPC-M
Disease Area: ROR
Partner / Member: HMGU
Access-Number: 30788833
See publication on PubMed

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