PLX226698

GSE115137: The transcriptome of human endometrial mesenchymal stem cells under TGFR inhibition reveals improved potential for cell-based therapies

• Organsim human
• Type RNASEQ
• Target gene
• Project ARCHS4

Mesenchymal stem/stromal cells (MSCs) are multipotent cells with favorable properties for cell therapy and regenerative medicine. Human endometrium harbors a small population of perivascular, clonogenic MSCs (eMSCs) identified by the SUSD2 marker. As for other MSCs, eMSCs require extensive in vitro expansion to generate clinically relevant numbers of cells, resulting in spontaneous differentiation, replicative senescence, and cell death, decreasing therapeutic potency. We previously demonstrated that A83-01, a TGF-b receptor inhibitor maintained eMSCs clonogenicity, promoted proliferation, prevented apoptosis and maintained MSC function in vitro. Here we compare the transcriptome of passaged eMSCs from six women cultured with and without A83-01 for 7 days. We identified 1206 differentially expressed genes using a false discovery rate cut-off at 0.01 and fold change >2. Significant enrichment of genes involved in inflammatory responses, angiogenesis, cell migration and proliferation, and reduced smooth muscle proliferation, collagen fibril and extracellular matrix organization genes were revealed. TGF-b, Wnt and Akt signaling pathways were decreased. Anti-fibrotic and anti-apoptotic genes were induced, and fibroblast proliferation and myofibroblast related genes were down-regulated. We validated the enhanced potency of A83-01-treated eMSCs and found increased MSC potency genes (TWIST1, TWIST2, JAG1, LIFR, and SLIT2) and no pluripotency gene expression. Increased angiogenic capacity was functionally demonstrated in vitro, and our angiogenic and cytokine protein arrays further confirmed the angiogenic, antifibrotic and immunomodulatory phenotype of A83-01-treated eMSCs. Overall, we showed that eMSCs culture expanded with A83-01 have improved potential for cell-therapies and regenerative medicine applications. SOURCE: Shanti Gurung (shanti.gurung@hudson.org.au) - Hudson Institute of Medical Research