AIMS: Argonaute2 (Ago2) has intrinsic endonuclease activity in microRNA processing that plays a fundamental role in gene regulation. In this study, we demonstrate novel functions and molecular mechanisms of nuclear Ago2 in the self-renewal and plasticity of human umbilical cord blood-derived mesenchymal stem cells (hUCB-MSCs). RESULTS: Nuclear Ago2 binds to a set of regulatory genes, including Ago2 itself, Oct4, Sox2, Nanog, GATA, STAT3, and β-catenin, that potentially target fundamental functions of stem cells. Direct regulation of the stemness genes by nuclear Ago2 was also crucial for cell self-renewal, survival, and differentiation into various types of tissues or cells, including neural cells and β-cells. Moreover, regulation of Oct4 by Ago2 directly controls the stem cell plasticity-determining signal mediators JAK2/STAT3 and Wnt5A/β-catenin and positively regulates cell proliferation and differentiation via blockage of ROS generation and P38/JNK inactivation. Nuclear Ago2 or stemness expression lead increased stem cell identity and decreased differentiation into a mesodermal lineage but also led to increased neural differentiation and β-cell differentiation in hUCB-MSCs. Nuclear Ago2-mediated stemness expression in hUCB-MSCs is also involved in cell survival, helping cells escape apoptotic cell death via inactivation of P38/JNK, caspase-3, and Bax. INNOVATION AND CONCLUSION: This study reveals that nuclear Ago2 globally controls stem cell self-renewal and differentiation through direct regulation of stemness genes and important signal mediator activation following inactivation of ROS/P38/JNK and activation of the JAK/STAT3 and Wnt/ β-catenin signal pathways.
AIMS: Argonaute2 (Ago2) has intrinsic endonuclease activity in microRNA processing that plays a fundamental role in gene regulation. In this study, we demonstrate novel functions and molecular mechanisms of nuclear Ago2 in the self-renewal and plasticity of human umbilical cord blood-derived mesenchymal stem cells (hUCB-MSCs). RESULTS: Nuclear Ago2 binds to a set of regulatory genes, including Ago2 itself, Oct4, Sox2, Nanog, GATA, STAT3, and β-catenin, that potentially target fundamental functions of stem cells. Direct regulation of the stemness genes by nuclear Ago2 was also crucial for cell self-renewal, survival, and differentiation into various types of tissues or cells, including neural cells and β-cells. Moreover, regulation of Oct4 by Ago2 directly controls the stem cell plasticity-determining signal mediators JAK2/STAT3 and Wnt5A/β-catenin and positively regulates cell proliferation and differentiation via blockage of ROS generation and P38/JNK inactivation. Nuclear Ago2 or stemness expression lead increased stem cell identity and decreased differentiation into a mesodermal lineage but also led to increased neural differentiation and β-cell differentiation in hUCB-MSCs. Nuclear Ago2-mediated stemness expression in hUCB-MSCs is also involved in cell survival, helping cells escape apoptotic cell death via inactivation of P38/JNK, caspase-3, and Bax. INNOVATION AND CONCLUSION: This study reveals that nuclear Ago2 globally controls stem cell self-renewal and differentiation through direct regulation of stemness genes and important signal mediator activation following inactivation of ROS/P38/JNK and activation of the JAK/STAT3 and Wnt/ β-catenin signal pathways.
Authors: Jin Sun Jung; Min Ki Jee; Hyun Tae Cho; Jee In Choi; Young Bin Im; Oh Hyun Kwon; Soo Kyung Kang Journal: Cell Mol Life Sci Date: 2012-09-30 Impact factor: 9.261