The interactions between bone marrow stem cells (BM-MSCs) and myelodysplastic syndromes (MDS) cells perform a crucial role in MDS pathogenesis by secreting cytokines ,growth factors, and exosomes. Although BM-MSCs induced growth of MDS cells has been studied, the role of exosomes from MDS-derived MSC (MDS-MSC-EXO) in this action remains unclear. In our study, we investigate the effect of MDS-MSC-EXO on the viability, proliferation, migration, cellular apoptosis of MDS cell lines, such as MDS-L and SKM-1. Our data identified that MDS-MSC-EXO can promote proliferation, migration, and decrease cell apoptosis. Both LR-MDS-MSC and HR-MDS-MSC-derived exosomes increased MDS cell growth.Exosomes mediate local cell-to-cell communication by transferring mRNAs, miRNAs, and proteins. In our study, we found that MDS-MSC-EXO expressed higher unshielded RN7SL1,an endogenous RNA normally shielded by RNA binding proteins SRP9/14, than that from health controls (HC-MSC-EXO). MDS cloned cells expressed higher retinoic acid inducible gene-I (RIG-I) and interferon-stimulated genes (ISGs), such as ISG15, IFIT1 and IFITM1, which are the receptor and effector molecules of RN7SL1. Both MDS-MSC-EXO and exogenous RN7SL1 can promote MDS cloned cells proliferation and stimulate ISGs expression by activating RIG-1. RIG-I inhibitor can block this effect. We demonstrate that MDS-MSC may promote MDS cloned cell proliferation through RIG-ISGs signal activated by exosomes-derived RN7SL1. Overall, our studies provide new insights that MSC-EXO functions the crucial roles in mediating the progression of MDS via RIG-1/ISGs activation, and demonstrate novel targets of RN7SL1 to the pathogenesis of MDS.This study will provide new ideas for MDS treatment in the aspect of microenvironment.
Disclosures
No relevant conflicts of interest to declare.
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