85 results found
    1. Biochemistry and Chemical Biology
    2. Cell Biology

    FAK/PYK2 promotes the Wnt/β-catenin pathway and intestinal tumorigenesis by phosphorylating GSK3β

    Chenxi Gao et al.
    Dual FAK/PYK2 kinase inhibition disrupts GSK3β phosphorylation and may present a new treatment for colorectal cancer in patients carrying APC mutations.
    1. Plant Biology

    Brassinosteroids control root epidermal cell fate via direct regulation of a MYB-bHLH-WD40 complex by GSK3-like kinases

    Yinwei Cheng et al.
    Brassinosteroids signal through a pathway involving GSK3-like kinases and the WER-GL3/EGL3-TTG1 transcription factor complex to determine the fate of cells in the root epidermis.
    1. Neuroscience

    mTORC1 is necessary but mTORC2 and GSK3β are inhibitory for AKT3-induced axon regeneration in the central nervous system

    Linqing Miao et al.
    The kinase AKT acts as a nodal point that coordinates both positive and negative cues to regulate the regeneration of central nervous system axons in adult mice.
    1. Neuroscience

    GSK3β regulates AKT-induced central nervous system axon regeneration via an eIF2Bε-dependent, mTORC1-independent pathway

    Xinzheng Guo et al.
    The AKT-GSK3β-eIF2Bε signaling module plays a key role in promoting axon regeneration in the adult mammalian central nervous system.
    1. Neuroscience

    PTEN negatively regulates the cell lineage progression from NG2+ glial progenitor to oligodendrocyte via mTOR-independent signaling

    Estibaliz González-Fernández et al.
    OPC-specific genetic inhibition of Akt upstream and downstream molecules in the mouse, and simultaneous OPC fate analysis reveal that PTEN-AKT-GSK3b forms a persistent negative signaling pathway for OL development, in parallel with the AKT-mTORC1 pathway.
    1. Cell Biology
    2. Human Biology and Medicine

    A novel GSK3-regulated APC:Axin interaction regulates Wnt signaling by driving a catalytic cycle of efficient βcatenin destruction

    Mira I Pronobis et al.
    A new dynamic mechanistic model explains how the destruction complex negatively regulates Wnt signaling in development and oncogenesis.
    1. Developmental Biology and Stem Cells

    Distinct SoxB1 networks are required for naïve and primed pluripotency

    Andrea Corsinotti et al.
    Genetic manipulations show that endogenous transcription factors of the SoxB1 class act redundantly to maintain primed pluripotency and reveal differential effects on transitions between pluripotent and differentiation states.
    1. Neuroscience

    Orphan receptor GPR158 controls stress-induced depression

    Laurie P Sutton et al.
    The orphan receptor GPR158 is highly regulated by stress exposure and acts on key neuronal signaling pathways in the prefrontal cortex to control depressive-like behaviors.

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