Gemma Alice Wilson scite author profile

SummaryThe structural and functional plasticity of synapses is critical for learning and memory. Long-term potentiation (LTP) induction promotes spine growth and AMPAR accumulation at excitatory synapses, leading to increased synaptic strength. Glutamate initiates these processes, but the contribution from extracellular modulators is not fully established. Wnts are required for spine formation; however, their impact on activity-mediated spine plasticity and AMPAR localization is unknown. We found that LTP induction rapidly increased synaptic Wnt7a/b protein levels. Acute blockade of endogenous Wnts or loss of postsynaptic Frizzled-7 (Fz7) receptors impaired LTP-mediated synaptic strength, spine growth, and AMPAR localization at synapses. Live imaging of SEP-GluA1 and single-particle tracking revealed that Wnt7a rapidly promoted synaptic AMPAR recruitment and trapping. Wnt7a, through Fz7, induced CaMKII-dependent loss of SynGAP from spines and increased extrasynaptic AMPARs by PKA phosphorylation. We identify a critical role for Wnt-Fz7 signaling in LTP-mediated synaptic accumulation of AMPARs and spine plasticity.

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Active growth signalling promotes cancer cell sensitivity to the CDK7 inhibitor ICEC0942

Wilson

Sava

Vuina

et al. 2021

Preprint

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CDK7 has a central role in promoting cellular proliferation, through the activation of the mi-totic CDKs, and by driving global gene expres-sion, through targeting RNA polymerase II. Several recently developed CDK7 inhibitors (CDK7i) have been shown to be non-toxic and to limit tumour growth for a number of cancer cell types and are now in Phase I/II clinical tri-als. However, the mechanisms underlying the sensitivity of particular cancer cells to CDK7 inhibition remain largely unknown. To improve the outcome of individual patients and increase the chances of successful CDK7i approval, we assessed which fundamental cellu-lar processes determine sensitivity to CDK7 in-hibition, using the highly specific CDK7 inhibi-tor ICEC0942. Our data shows that selective CDK7 inhibition acutely arrests cells in the G1 phase of the cell cycle, which over time leads to senescence. Through a genome-wide CRISPR knock-out chemogenetic screen we identified active mTOR (mammalian target of rapamycin) signalling, as an important determinant of ICEC0942-induced senescence and show that a cancer-associated mutation that promotes cell growth can increase sensitivity to ICEC0942. Our work indicates that cellular growth is an important predictive marker for sensitivity to CDK7i.

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Active Growth Signalling Promotes Senescence and Cancer Cell Sensitivity to CDK7 Inhibition

et al. 2022

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