Rianne Grond scite author profile

In vitro experiments have shown that GRASP65 (GORASP1) and GRASP55 (GORASP2) proteins function in stacking Golgi cisternae. However, in vivo depletion of GORASPs in metazoans has given equivocal results. We have generated a mouse lacking both GORASPs and find that Golgi cisternae remained stacked. However, the stacks are disconnected laterally from each other, and the cisternal cross-sectional diameters are significantly reduced compared with their normal counterparts. These data support earlier findings on the role of GORASPs in linking stacks, and we suggest that unlinking of stacks likely affects dynamic control of COPI budding and vesicle fusion at the rims. The net result is that cisternal cores remain stacked, but cisternal diameter is reduced by rim consumption.

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Phospho-Rasputin Stabilization by Sec16 Is Required for Stress Granule Formation upon Amino Acid Starvation

Aguilera-Gomez

Zacharogianni

Oorschot

et al. 2017

Cell Reports

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SUMMARY Most cellular stresses induce protein translation inhibition and stress granule formation. Here, using Drosophila S2 cells, we investigate the role of G3BP/Rasputin in this process. In contrast to arsenite treatment, where dephosphorylated Ser142 Rasputin is recruited to stress granules, we find that, upon amino acid starvation, only the phosphorylated Ser142 form is recruited. Furthermore, we identify Sec16, a component of the endoplasmic reticulum exit site, as a Rasputin interactor and stabilizer. Sec16 depletion results in Rasputin degradation and inhibition of stress granule formation. However, in the absence of Sec16, pharmacological stabilization of Rasputin is not enough to rescue the assembly of stress granules. This is because Sec16 specifically interacts with phosphorylated Ser142 Rasputin, the form required for stress granule formation upon amino acid starvation. Taken together, these results demonstrate that stress granule formation is fine-tuned by specific signaling cues that are unique to each stress. These results also expand the role of Sec16 as a stress response protein.

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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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Rianne Grond

The function of GORASPs in Golgi apparatus organization in vivo

Phospho-Rasputin Stabilization by Sec16 Is Required for Stress Granule Formation upon Amino Acid Starvation

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

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