AI Article Synopsis
- - Researchers investigated the effects of preconditioning mesenchymal stromal cells (MSCs) with hypoxia and the HIFα stabilizer Vadadustat to enhance their therapeutic potential, focusing on gene expression changes.
- - They analyzed human bone marrow-derived MSCs subjected to 6 hours of either hypoxia or Vadadustat treatment, resulting in a significant number of differentially expressed genes: 250 for hypoxia, 1071 for Vadadustat, and 1770 when comparing Vadadustat to hypoxia.
- - The findings revealed that while both preconditioning methods enriched genes related to metabolism, Vadadustat specifically influenced genes involved in vesicular transport, chromatin modifications, and signaling
Article Abstract
Mesenchymal stromal cell (MSC) therapy is making its way into clinical practice, accompanied by research into strategies improving their therapeutic potential. Preconditioning MSCs with hypoxia-inducible factors-α (HIFα) stabilizers is an alternative to hypoxic priming, but there remains insufficient data evaluating its transcriptomic effect. Herein, we determined the gene expression profile of 6 human bone marrow-derived MSCs preconditioned for 6 h in 2% O (hypoxia) or with 40 μM Vadadustat, compared to control cells and each other. RNA-Sequencing was performed using the Illumina platform, quality control with FastQC and adapter-trimming with BBDUK2. Transcripts were mapped to the Homo_sapiens. GRCh37 genome and converted to relative expression using Salmon. Differentially expressed genes (DEGs) were generated using DESeq2 while functional enrichment was performed in GSEA and g:Profiler. Comparison of hypoxia versus control resulted in 250 DEGs, Vadadustat versus control 1071, and Vadadustat versus hypoxia 1770. The terms enriched in both phenotypes referred mainly to metabolism, in Vadadustat additionally to vesicular transport, chromatin modifications and interaction with extracellular matrix. Compared with hypoxia, Vadadustat upregulated autophagic, phospholipid metabolism, and TLR cascade genes, downregulated those of cytoskeleton and GG-NER pathway and regulated 74 secretory factor genes. Our results provide valuable insight into the transcriptomic effects of these two methods of MSCs preconditioning.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8348678 | PMC |
| http://dx.doi.org/10.3390/ijms22158160 | DOI Listing |
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