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AuthorSwaidan, Nuha T.
AuthorSoliman, Nada H.
AuthorAboughalia, Ahmed T.
AuthorDarwish, Toqa
AuthorAlmeshal, Ruba O.
AuthorAl-Khulaifi, Azhar A.
AuthorTaha, Rowaida Z.
AuthorAlanany, Rania
AuthorHussein, Ahmed Y.
AuthorSalloum-Asfar, Salam
AuthorAbdulla, Sara A.
AuthorAbdallah, Abdallah M.
AuthorEmara, Mohamed M.
Available date2024-04-25T06:20:13Z
Publication Date2024
Publication NameFrontiers in Molecular Biosciences
ResourceScopus
ISSN2296889X
URIhttp://dx.doi.org/10.3389/fmolb.2024.1342011
URIhttp://hdl.handle.net/10576/54243
AbstractReprogramming human somatic cells into a pluripotent state, achieved through the activation of well-defined transcriptional factors known as OSKM factors, offers significant potential for regenerative medicine. While OSKM factors are a robust reprogramming method, efficiency remains a challenge, with only a fraction of cells undergoing successful reprogramming. To address this, we explored genes related to genomic integrity and cellular survival, focusing on iPSCs (A53T-PD1) that displayed enhanced colony stability. Our investigation had revealed three candidate genes CCN3, POSTN, and PTHLH that exhibited differential expression levels and potential roles in iPSC stability. Subsequent analyses identified various protein interactions for these candidate genes. POSTN, significantly upregulated in A53T-PD1 iPSC line, showed interactions with extracellular matrix components and potential involvement in Wnt signaling. CCN3, also highly upregulated, demonstrated interactions with TP53, CDKN1A, and factors related to apoptosis and proliferation. PTHLH, while upregulated, exhibited interactions with CDK2 and genes involved in cell cycle regulation. RT-qPCR validation confirmed elevated CCN3 and PTHLH expression in A53T-PD1 iPSCs, aligning with RNA-seq findings. These genes' roles in preserving pluripotency and cellular stability require further exploration. In conclusion, we identified CCN3, POSTN, and PTHLH as potential contributors to genomic integrity and pluripotency maintenance in iPSCs. Their roles in DNA repair, apoptosis evasion, and signaling pathways could offer valuable insights for enhancing reprogramming efficiency and sustaining pluripotency. Further investigations are essential to unravel the mechanisms underlying their actions.
SponsorThe author(s) declare financial support was received for the research, authorship, and/or publication of this article. Qatar University funded the publication of this article. This research work was supported by QRDI [grant number: UREP27-156-3-044].
Languageen
PublisherFrontiers Media SA
Subjectcellular survival
ESCs
genomic integrity
iPSCs
transcription factors
TitleCCN3, POSTN, and PTHLH as potential key regulators of genomic integrity and cellular survival in iPSCs
TypeArticle
Volume Number11
dc.accessType Open Access


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