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electroporation  (Exosome Diagnostics)

 
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    Exosome Diagnostics electroporation
    Electroporation, supplied by Exosome Diagnostics, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/electroporation/product/Exosome Diagnostics
    Average 86 stars, based on 1 article reviews
    electroporation - by Bioz Stars, 2026-05
    86/100 stars

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    Schematic illustration of the preparation of M2-exo@HI and its mediated therapeutic mechanisms and signaling pathways. (a) RAW264.7 macrophages were polarized to M2 phenotype using DEX, followed by M2-exo isolation from cell supernatant via differential centrifugation. M2-exo@HI was prepared through encapsulating HI into M2-exo by <t>electroporation.</t> (b) M2-exo@HI crossed the BBB and localized to microglia in the hemorrhagic brain, delivering the HI plasmid into the nucleus. This prompted expression and secretion of Hp and IL-10 by microglia. The released Hp inhibited Hb toxicity by binding to Hb. IL-10 shifted microglial polarization from the pro-inflammatory M1 phenotype toward the reparative M2 phenotype, removing hematoma by engulfing erythrocyte and Hb-Hp complex, and decreasing pro-inflammatory cytokine levels—collectively enhancing neuroprotection and BBB repair. These beneficial outcomes were linked to the inhibition of the IL-17 and NF-κB signaling pathways and activation of the PI3K-Akt and ferroptosis pathways.
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    Schematic illustration of the preparation of M2-exo@HI and its mediated therapeutic mechanisms and signaling pathways. (a) RAW264.7 macrophages were polarized to M2 phenotype using DEX, followed by M2-exo isolation from cell supernatant via differential centrifugation. M2-exo@HI was prepared through encapsulating HI into M2-exo by <t>electroporation.</t> (b) M2-exo@HI crossed the BBB and localized to microglia in the hemorrhagic brain, delivering the HI plasmid into the nucleus. This prompted expression and secretion of Hp and IL-10 by microglia. The released Hp inhibited Hb toxicity by binding to Hb. IL-10 shifted microglial polarization from the pro-inflammatory M1 phenotype toward the reparative M2 phenotype, removing hematoma by engulfing erythrocyte and Hb-Hp complex, and decreasing pro-inflammatory cytokine levels—collectively enhancing neuroprotection and BBB repair. These beneficial outcomes were linked to the inhibition of the IL-17 and NF-κB signaling pathways and activation of the PI3K-Akt and ferroptosis pathways.
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    electroporation cuvette  (Bio-Rad)
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    Schematic illustration of the preparation of M2-exo@HI and its mediated therapeutic mechanisms and signaling pathways. (a) RAW264.7 macrophages were polarized to M2 phenotype using DEX, followed by M2-exo isolation from cell supernatant via differential centrifugation. M2-exo@HI was prepared through encapsulating HI into M2-exo by <t>electroporation.</t> (b) M2-exo@HI crossed the BBB and localized to microglia in the hemorrhagic brain, delivering the HI plasmid into the nucleus. This prompted expression and secretion of Hp and IL-10 by microglia. The released Hp inhibited Hb toxicity by binding to Hb. IL-10 shifted microglial polarization from the pro-inflammatory M1 phenotype toward the reparative M2 phenotype, removing hematoma by engulfing erythrocyte and Hb-Hp complex, and decreasing pro-inflammatory cytokine levels—collectively enhancing neuroprotection and BBB repair. These beneficial outcomes were linked to the inhibition of the IL-17 and NF-κB signaling pathways and activation of the PI3K-Akt and ferroptosis pathways.
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    Schematic illustration of the preparation of M2-exo@HI and its mediated therapeutic mechanisms and signaling pathways. (a) RAW264.7 macrophages were polarized to M2 phenotype using DEX, followed by M2-exo isolation from cell supernatant via differential centrifugation. M2-exo@HI was prepared through encapsulating HI into M2-exo by electroporation. (b) M2-exo@HI crossed the BBB and localized to microglia in the hemorrhagic brain, delivering the HI plasmid into the nucleus. This prompted expression and secretion of Hp and IL-10 by microglia. The released Hp inhibited Hb toxicity by binding to Hb. IL-10 shifted microglial polarization from the pro-inflammatory M1 phenotype toward the reparative M2 phenotype, removing hematoma by engulfing erythrocyte and Hb-Hp complex, and decreasing pro-inflammatory cytokine levels—collectively enhancing neuroprotection and BBB repair. These beneficial outcomes were linked to the inhibition of the IL-17 and NF-κB signaling pathways and activation of the PI3K-Akt and ferroptosis pathways.

    Journal: Bioactive Materials

    Article Title: M2 macrophage-derived exosomes delivering haptoglobin and interleukin-10 plasmids for synergistic therapy of intracerebral hemorrhage

    doi: 10.1016/j.bioactmat.2026.01.047

    Figure Lengend Snippet: Schematic illustration of the preparation of M2-exo@HI and its mediated therapeutic mechanisms and signaling pathways. (a) RAW264.7 macrophages were polarized to M2 phenotype using DEX, followed by M2-exo isolation from cell supernatant via differential centrifugation. M2-exo@HI was prepared through encapsulating HI into M2-exo by electroporation. (b) M2-exo@HI crossed the BBB and localized to microglia in the hemorrhagic brain, delivering the HI plasmid into the nucleus. This prompted expression and secretion of Hp and IL-10 by microglia. The released Hp inhibited Hb toxicity by binding to Hb. IL-10 shifted microglial polarization from the pro-inflammatory M1 phenotype toward the reparative M2 phenotype, removing hematoma by engulfing erythrocyte and Hb-Hp complex, and decreasing pro-inflammatory cytokine levels—collectively enhancing neuroprotection and BBB repair. These beneficial outcomes were linked to the inhibition of the IL-17 and NF-κB signaling pathways and activation of the PI3K-Akt and ferroptosis pathways.

    Article Snippet: M2-exo (100 μL, 1 mg/mL), HI plasmid (circular pBudCE4.1, 100 μg, TsingkeBiotechnology., Ltd.), and 100 μL PBS were added to the electroporation cuvettes (Bio-Rad 165-2088).

    Techniques: Protein-Protein interactions, Isolation, Centrifugation, Electroporation, Plasmid Preparation, Expressing, Binding Assay, Inhibition, Activation Assay