Chujun Zhang scite author profile

Chujun Zhang

2Publications

34Citation Statements Received

174Citation Statements Given

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Affiliations

Hubrecht Institute for Developmental Biology and Stem Cell Research, University Medical Center Utrecht

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Activation of IRE1, PERK and salt-inducible kinases leads to Sec body formation inDrosophilaS2 cells

Zhang

Leeuwen

Blotenburg

et al. 2021

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The phase separation of the non-membrane bound Sec bodies occurs in Drosophila S2 cells by coalescence of components of the ER exit sites under the stress of amino-acid starvation. Here we address which signaling pathways cause Sec body formation and find that two pathways are critical. The first is the activation of the salt inducible kinases (SIK) by Na+ stress, that when it is strong is sufficient. The second is activation of IRE1 and PERK downstream of ER stress induced by absence of amino- acids, which needs to be combined with moderate salt stress to induce Sec body formation. SIK and IRE1/PERK activation appear to potentiate each other through the stimulation of the unfolded protein response, a key parameter in Sec body formation. This work pioneers the role of SIK in phase transition and re-enforces the role of IRE1 and PERK as a metabolic sensor for the level of circulating amino-acids and salt.

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Novel Components of the Stress Assembly Sec Body Identified by Proximity Labeling

Zhang

Kalaitsidou

Damen

et al. 2023

Cells

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Sec bodies are membraneless stress-induced assemblies that form by the coalescence of endoplasmic reticulum exit sites (ERES). Through APEX2 tagging of Sec24AB, we biotinylated and identified the full complement of Sec body proteins. In the presence of biotin-phenol and H2O2 (APEX on), APEX2 facilitates the transfer of a biotin moiety to nearby interactors of chimeric Sec24AB. Using this unbiased approach comparing APEX on and off (−H2O2) conditions, we identified 52 proteins specifically enriched in Sec bodies. These include a large proportion of ER and Golgi proteins, packaged without defined stoichiometry, which we could selectively verify by imaging. Interestingly, Sec body components are neither transcriptionally nor translationally regulated under the conditions that induce Sec body formation, suggesting that incorporation of these proteins into granules may be driven instead by the aggregation of nucleating proteins with a high content of intrinsically disordered regions. This reinforces the notion that Sec bodies may act as storage for ERES, ER and Golgi components during stress.

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Chujun Zhang

Activation of IRE1, PERK and salt-inducible kinases leads to Sec body formation inDrosophilaS2 cells

Novel Components of the Stress Assembly Sec Body Identified by Proximity Labeling

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