He Sun scite author profile

Background: Macrophages robustly secrete MMP-9 upon activation, and mechanisms for active delivery of MMP-9 vesicles to the cell surface have not been described. Results: MMP-9 is packaged into unique ER protein-containing vesicles that associate with microtubule motors in activated macrophages. Conclusion: Macrophage activation requires enhanced microtubule stabilization for rapid secretion of up-regulated MMP-9. Significance: Understanding the nature and mechanisms of intracellular trafficking of MMP-9 is relevant to both immunology and cancer biology fields.

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PERK–KIPK–KCBP signalling negatively regulates root growth in Arabidopsis thaliana

Humphrey

Haasen

Aldea-Brydges

et al. 2014

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Migratory activation of parasitized dendritic cells by the protozoanToxoplasma gondii14-3-3 protein

Weidner

Kanatani

Uchtenhagen

et al. 2016

Cellular Microbiology

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The obligate intracellular parasite Toxoplasma gondii exploits cells of the immune system to disseminate. Upon infection, parasitized dendritic cells (DCs) and microglia exhibit a hypermigratory phenotype in vitro that has been associated with enhancing parasite dissemination in vivo in mice. One unresolved question is how parasites commandeer parasitized cells to achieve systemic dissemination by a ‘Trojan horse’ mechanism. By chromatography and mass spectrometry analyses, we identified an orthologue of the 14-3-3 protein family, T. gondii 14-3-3 (Tg14-3-3), as mediator of DC hypermotility. We demonstrate that parasite-derived polypeptide fractions enriched for Tg14-3-3 or recombinant Tg14-3-3 are sufficient to induce the hypermotile phenotype when introduced by protein transfection into murine DCs, human DCs or microglia. Further, gene transfer of Tg14-3-3 by lentiviral transduction induced hypermotility in primary human DCs. In parasites expressing Tg14-3-3 in a ligand regulatable fashion, over-expression of Tg14-3-3 was correlated with induction of hypermotility in parasitized DCs. Localization studies in infected DCs identified Tg14-3-3 within the parasitophorous vacuolar space and a rapid recruitment of host cell 14-3-3 to the parasitophorous vacuole membrane. The present work identifies a determinant role for Tg14-3-3 in the induction of the migratory activation of immune cells by T. gondii. Collectively, the findings reveal Tg14-3-3 as a novel target for an intracellular pathogen that acts by hijacking the host cell’s migratory properties to disseminate.

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He Sun

Classically Activated Macrophages Use Stable Microtubules for Matrix Metalloproteinase-9 (MMP-9) Secretion

PERK–KIPK–KCBP signalling negatively regulates root growth in Arabidopsis thaliana

Migratory activation of parasitized dendritic cells by the protozoanToxoplasma gondii14-3-3 protein

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