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Knockdown of formin mDia2 alters lamin B1 levels and increases osteogenesis in stem cells.
STEM CELLS ( IF 6.022 ) Pub Date : 2019-11-06 , DOI: 10.1002/stem.3098
Jeyantt S Sankaran,Buer Sen,Amel Dudakovic,Christopher R Paradise,Tony Perdue,Zhihui Xie,Cody McGrath,Maya Styner,Joshua Newberg,Gunes Uzer,Andre J van Wijnen,Janet Rubin

Nuclear actin plays a critical role in mediating mesenchymal stem cell (MSC) fate commitment. In marrow-derived MSCs, the principal diaphanous-related formin Diaph3 (mDia2) is present in the nucleus and regulates intranuclear actin polymerization, whereas Diaph1 (mDia1) is localized to the cytoplasm and controls cytoplasmic actin polymerization. We here show that mDia2 can be used as a tool to query actin-lamin nucleoskeletal structure. Silencing mDia2 affected the nucleoskeletal lamin scaffold, altering nuclear morphology without affecting cytoplasmic actin cytoskeleton, and promoted MSC differentiation. Attempting to target intranuclear actin polymerization by silencing mDia2 led to a profound loss in lamin B1 nuclear envelope structure and integrity, increased nuclear height, and reduced nuclear stiffness without compensatory changes in other actin nucleation factors. Loss of mDia2 with the associated loss in lamin B1 promoted Runx2 transcription and robust osteogenic differentiation and suppressed adipogenic differentiation. Hence, mDia2 is a potent tool to query intranuclear actin-lamin nucleoskeletal structure, and its presence serves to retain multipotent stromal cells in an undifferentiated state.
更新日期:2019-11-06

 

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