Liang Yuh Chew scite author profile

Liang Yuh Chew

3Publications

71Citation Statements Received

353Citation Statements Given

How they've been cited

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231

341

Affiliations

Duke-NUS Medical School, Temasek Life Sciences Laboratory, National University of Singapore

Publications

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A microtubule polymerase is required for microtubule orientation and dendrite pruning in Drosophila

Tang

Rui

et al. 2020

The EMBO Journal

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Drosophila class IV ddaC neurons selectively prune all larval dendrites to refine the nervous system during metamorphosis. During dendrite pruning, severing of proximal dendrites is preceded by local microtubule (MT) disassembly. Here, we identify an unexpected role of Mini spindles (Msps), a conserved MT polymerase, in governing dendrite pruning. Msps associates with another MT-associated protein TACC, and both stabilize each other in ddaC neurons. Moreover, Msps and TACC are required to orient minus-end-out MTs in dendrites. We further show that the functions of msps in dendritic MT orientation and dendrite pruning are antagonized by the kinesin-13 MT depolymerase Klp10A. Excessive MT depolymerization, which is induced by pharmacological treatment and katanin overexpression, also perturbs dendritic MT orientation and dendrite pruning, phenocopying msps mutants. Thus, we demonstrate that the MT polymerase Msps is required to form dendritic minus-end-out MTs and thereby promotes dendrite pruning in Drosophila sensory neurons.

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Msps governs acentrosomal microtubule assembly and reactivation of quiescent neural stem cells

et al. 2021

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The ability of stem cells to switch between quiescence and proliferation is crucial for tissue homeostasis and regeneration. Drosophila quiescent neural stem cells (NSCs) extend a primary cellular protrusion from the cell body prior to their reactivation. However, the structure and function of this protrusion are not well established. Here, we show that in the protrusion of quiescent NSCs, microtubules are predominantly acentrosomal and oriented plus‐end‐out toward the tip of the primary protrusion. We have identified Mini Spindles (Msps)/XMAP215 as a key microtubule regulator in quiescent NSCs that governs NSC reactivation via regulating acentrosomal microtubule growth and orientation. We show that quiescent NSCs form membrane contact with the neuropil and E‐cadherin, a cell adhesion molecule, localizes to these NSC‐neuropil junctions. Msps and a plus‐end directed motor protein Kinesin‐2 promote NSC cell cycle re‐entry and target E‐cadherin to NSC‐neuropil contact during NSC reactivation. Together, this work establishes acentrosomal microtubule organization in the primary protrusion of quiescent NSCs and the Msps‐Kinesin‐2 pathway that governs NSC reactivation, in part, by targeting E‐cad to NSC‐neuropil contact sites.

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The Nrf2-Keap1 pathway is activated by steroid hormone signaling to govern neuronal remodeling

Chew

Zhang

et al. 2021

Cell Reports

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Liang Yuh Chew

A microtubule polymerase is required for microtubule orientation and dendrite pruning in Drosophila

Msps governs acentrosomal microtubule assembly and reactivation of quiescent neural stem cells

The Nrf2-Keap1 pathway is activated by steroid hormone signaling to govern neuronal remodeling

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