2015
DOI: 10.1016/j.nlm.2015.07.011
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Deceivingly dynamic: Learning-dependent changes in stathmin and microtubules

Abstract: Microtubules, one of the major cytoskeletal structures, were previously considered stable and only indirectly involved in synaptic structure and function in mature neurons. However, recent evidence demonstrates that microtubules are dynamic and have an important role in synaptic structure, synaptic plasticity, and memory. In particular, learning induces changes in microtubule turnover and stability, and pharmacological manipulation of microtubule dynamics alters synaptic plasticity and long-term memory. These … Show more

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Cited by 33 publications
(36 citation statements)
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References 112 publications
(162 reference statements)
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“…Taken together, these observations indicate that the presence of MT arrays per se is not sufficient to induce cytolysis and suggest a role for MT dynamics in cytolysis. MT dynamics are usually defined by rates of microtubule growth and shortening, and the frequencies of catastrophes and rescues . To demonstrate changes in events linked to MT growth and rescue frequency, we analysed the phosphorylation status of two regulators of MT polymerization/depolymerization and catastrophe/rescue events, stathmin and MAP4 .…”
Section: Resultsmentioning
confidence: 99%
“…Taken together, these observations indicate that the presence of MT arrays per se is not sufficient to induce cytolysis and suggest a role for MT dynamics in cytolysis. MT dynamics are usually defined by rates of microtubule growth and shortening, and the frequencies of catastrophes and rescues . To demonstrate changes in events linked to MT growth and rescue frequency, we analysed the phosphorylation status of two regulators of MT polymerization/depolymerization and catastrophe/rescue events, stathmin and MAP4 .…”
Section: Resultsmentioning
confidence: 99%
“…Deficits in microtubule-mediated intracellular transport impair synaptic plasticity and memory formation (Shumyatsky et al, 2005; Uchida et al, 2014; Uchida and Shumyatsky, 2015), suggesting that nuclear translocation of CRTC1 may be dependent on microtubules. Injection of nocodazole, a microtubule destabilizer, into the hippocampus 1 h before 3-shock CFC blocked the increase in nuclear CRTC1 and the decrease in synaptic CRTC1 but did not change whole-cell CRTC1 levels, as measured 1 h following CFC (Figure S5H).…”
Section: Resultsmentioning
confidence: 99%
“…Certain proteins within cells—most notably tubulin, actin, intermediate filaments, and septins—have the ability to form polymeric structures that give rise to what is termed the cytoskeleton. Although the name suggests a rather stable network of filaments, the cytoskeleton is anything but (Uchida and Shumyatsky, 2015). The cytoskeleton is in constant motion through subunit exchange, assembling and disassembling via intrinsic mechanisms inherent in each type of polymer and regulated by myriad polymer-associated proteins.…”
Section: Dynamic Microtubules In Neuronal Dendritesmentioning
confidence: 99%