Stem Cell Therapy for Specific Conditions
Advancing the Generation of In-Vivo Chimeric Lungs in Mice Using Rat-Derived Stem Cells
Feb
Chronic obstructive pulmonary disease (COPD) is the third leading cause of death worldwide.
It is marked by lung damage that is lasting and incurable, leaving lung transplantation as the only viable treatment option.
Through a biological technique known as blastocyst complementation, PSCs, and embryonic stem cells (ESCs) from one species can be injected into blastocysts of a different organ-deficient species, creating interspecies chimeric animals.
This technique has enabled successful regeneration of the pancreas, heart, and kidney in rat-mouse chimeras.
Now, scientists from Japan have used the reverse-blastocyst complementation (rBC) method to understand the conditions required to form lungs in rat-mouse chimeric models.
The fibroblast growth factor 10 (Fgf10) and its interaction with the Fgf receptor 2 isoform IIIb (Fgfr2b) in the lungs are crucial for lung development.
In this study, the rBC method involved injecting mutant ESCs which fail to show lung formation into wild-type (WT) embryos.
This method allows for efficient detection of mutant PSCs in the recipient tissue, aiding the determination of the conditions necessary for successful lung formation in the organ-deficient animal.
The research team also found that WT ESCs provide uniform contributions across target and non-target organs in the chimeras.
This helped ascertain that a certain number of WT or normal cells are required to overcome the lung development failure in Fgf10-deficient or Fgfr2b-deficient animals.
With this knowledge, they successfully produced rat-derived lungs in the Fgfr2b-deficient mouse embryos with the TOC method, without needing to produce a mutant mouse line.
“Interestingly, we found that the rat epithelial cells conserved intrinsic species-specific timing in the interspecies model, resulting in an underdeveloped lung,” notes Yuri.
Consequently, these lungs remained nonfunctional post-birth.
The findings of this study clearly identify the factors required and barriers to overcome for successful generation of functional lungs in rat-mouse interspecies chimeras. Speaking of the significance of these findings, Yuri concludes, “We believe that our study makes an important contribution to the literature by presenting a faster and more efficient method of exploring blastocyst complementation. These novel results can significantly advance the progress toward developing in-vivo chimeric lungs for the purpose of transplantation, which could transform the practical application of regenerative medicine.”
Sources:
Shunsuke Yuri, Yuki Murase, Ayako Isotani. Generation of rat-derived lung epithelial cells in Fgfr2b-deficient mice retains species-specific development. Development, 2024; 151 (1) DOI: 10.1242/dev.202081
Materials provided by Nara Institute of Science and Technology. Note: Content may be edited for style and length.
Nara Institute of Science and Technology. “Advancing the generation of in-vivo chimeric lungs in mice using rat-derived stem cells.” ScienceDaily. ScienceDaily, 5 January 2024. <www.sciencedaily.com/releases/2024/01/240105145107.htm>.
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