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    1. Developmental Biology

    SOXF factors regulate murine satellite cell self-renewal and function through inhibition of β-catenin activity

    Sonia Alonso-Martin et al.
    A set of ex vivo and in vivo experiments, including genetic ablation and regeneration studies, identify a key regulatory function of SOXF factors in muscle stem cells in mice.
    1. Stem Cells and Regenerative Medicine

    Myofiber-specific TEAD1 overexpression drives satellite cell hyperplasia and counters pathological effects of dystrophin deficiency

    Sheryl Southard et al.
    For skeletal muscle in mice, the size of the stem cell pool can be uncoupled from overall tissue size allowing for a dramatic increase in stem cell number.
    1. Developmental Biology

    Identification and functional characterization of muscle satellite cells in Drosophila

    Dhananjay Chaturvedi et al.
    Modeling adult muscle homeostasis, maintenance and repair will now be possible in Drosophila with the discovery of satellite cells equivalents in flight muscles.
    1. Developmental Biology
    2. Stem Cells and Regenerative Medicine

    A requirement of Polo-like kinase 1 in murine embryonic myogenesis and adult muscle regeneration

    Zhihao Jia et al.
    Inhibition of Polo-like kinase that has been shown to exhibit antitumor effect unexpectedly disrupts muscle stem cell function, leading to developmental and regenerative failures.
    1. Cell Biology
    2. Stem Cells and Regenerative Medicine

    The role of Pitx2 and Pitx3 in muscle stem cells gives new insights into P38α MAP kinase and redox regulation of muscle regeneration

    Aurore L'honoré et al.
    Modulation of muscle stem cell redox state in culture both improves their amplification while maintaining a similar grafting potential as freshly isolated stem cells.
    1. Stem Cells and Regenerative Medicine

    Sustained expression of HeyL is critical for the proliferation of muscle stem cells in overloaded muscle

    Sumiaki Fukuda et al.
    Proliferating muscle stem cells in overloaded muscle require special molecular mechanisms that differ from well-known myogenic differentiation model.
    1. Cell Biology
    2. Developmental Biology

    Centriolar satellites assemble centrosomal microcephaly proteins to recruit CDK2 and promote centriole duplication

    Andrew Kodani et al.
    To control centriole duplication, centriolar satellite proteins assemble a microcephaly-associated protein complex at the centrosome and activate cyclin-dependent kinase 2.
    1. Cell Biology
    2. Stem Cells and Regenerative Medicine

    Inducible depletion of adult skeletal muscle stem cells impairs the regeneration of neuromuscular junctions

    Wenxuan Liu et al.
    Skeletal muscle stem cells play important roles in the regeneration of neuromuscular junctions, and so present new targets for therapies to treat neuromuscular decline observed in the context of aging and various neuromuscular diseases.
    1. Cancer Biology

    Inhibiting IRE1α-endonuclease activity decreases tumor burden in a mouse model for hepatocellular carcinoma

    Nataša Pavlović et al.
    Inhibiting IRE1α decreases tumor cell proliferation and migration in hepatocellular carcinoma, therefore components of this ER-stress pathway may be therapeutically relevant for liver cancer.
    1. Cell Biology
    2. Chromosomes and Gene Expression

    Alpha-satellite RNA transcripts are repressed by centromere–nucleolus associations

    Leah Bury et al.
    Single molecule FISH analysis defines the behavior of centromere-derived alpha-satellite transcripts in intact human cells and reveals a critical role for centromere-nucleolar contacts in repressing alpha-satellite transcription.