95 results found
    1. Cell Biology

    SIRT2 deacetylase regulates the activity of GSK3 isoforms independent of inhibitory phosphorylation

    Mohsen Sarikhani et al.
    Mass spectroscopy, molecular modeling and/or molecular dynamics simulations reveal how acetylation regulates the activity of GSK3 isoforms independent of inhibitory phosphorylation.
    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. Developmental Biology

    Dkk2 promotes neural crest specification by activating Wnt/β-catenin signaling in a GSK3β independent manner

    Arun Devotta et al.
    Dkk2, a member of the Dikkopf family of Wnt antagonists, acts as a positive regulator of Wnt signaling during neural crest formation.
    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. Microbiology and Infectious Disease

    Characterization of a Toxoplasma effector uncovers an alternative GSK3/β-catenin-regulatory pathway of inflammation

    Huan He et al.
    A genetic screen in combination with biochemical approaches reveal hijacking of the host β-catenin destruction complex by the parasite T. gondii to reprogram immune gene expression.

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