AI Article Synopsis
- Chondrogenesis is the process where cartilage progenitor cells develop into cartilage tissue with specific structural and functional traits, though the gene expression changes over time during this process haven't been fully explored.
- Researchers used RNA sequencing to analyze gene expression in embryonic limb bud progenitor cells during cartilage formation, finding distinct changes in the transcriptome as chondrogenesis progressed.
- They identified important genes and transcription factors associated with chondrogenesis and demonstrated that silencing certain genes like ATOH8 or EBF1 disrupts the process, providing valuable insights for future cartilage tissue engineering strategies.
Article Abstract
Chondrogenesis is a multistep process, in which cartilage progenitor cells generate a tissue with distinct structural and functional properties. Although several approaches to cartilage regeneration rely on the differentiation of implanted progenitor cells, the temporal transcriptomic landscape of in vitro chondrogenesis in different models has not been reported. Using RNA sequencing, we examined differences in gene expression patterns during cartilage formation in micromass cultures of embryonic limb bud-derived progenitors. Principal component and trajectory analyses revealed a progressively different and distinct transcriptome during chondrogenesis. Differentially expressed genes (DEGs), based on pairwise comparisons of samples from consecutive days were classified into clusters and analysed. We confirmed the involvement of the top DEGs in chondrogenic differentiation using pathway analysis and identified several chondrogenesis-associated transcription factors and collagen subtypes that were not previously linked to cartilage formation. Transient gene silencing of ATOH8 or EBF1 on day 0 attenuated chondrogenesis by deregulating the expression of key osteochondrogenic marker genes in micromass cultures. These results provide detailed insight into the molecular mechanism of chondrogenesis in primary micromass cultures and present a comprehensive dataset of the temporal transcriptomic landscape of chondrogenesis, which may serve as a platform for new molecular approaches in cartilage tissue engineering.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10164575 | PMC |
| http://dx.doi.org/10.1093/nar/gkad210 | DOI Listing |
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