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epithelial human breast cancer  (ATCC)


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    ATCC epithelial human breast cancer
    Epithelial Human Breast Cancer, supplied by ATCC, used in various techniques. Bioz Stars score: 99/100, based on 28129 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/epithelial human breast cancer/product/ATCC
    Average 99 stars, based on 28129 article reviews
    epithelial human breast cancer - by Bioz Stars, 2026-03
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    MagGO induces tumor cell death via frequency- and mode-dependent mechanical disruption (A) TEM images of MagGO synthesized under MF. The dashed white line represents the contour edge of GO. Scale bars, 200 nm. (B) M-H curve of GO, MNP, and MagGO. (C) AFM image of MagGO and the height of GO in MagGO. Scale bars, 500 nm. (D, F, and H) Cell viability of <t>U87</t> <t>(D),</t> <t>MDA-MB-231</t> (F), and A549 (H) cells treated with MNP and MagGO under RMF and 3D MF (RMF combined with OMF stimulation) at 5 Hz. The applied field strength is 75 mT. The data were presented as the mean ± SD. (E, G, and I) Cell viability of U87 (E), MDA-MB-231 (G), and A549 (I) cells treated with MNP and MagGO under 3D MF of different frequencies. The applied field strength is 75 mT. The data were presented as the mean ± SD.
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    MagGO induces tumor cell death via frequency- and mode-dependent mechanical disruption (A) TEM images of MagGO synthesized under MF. The dashed white line represents the contour edge of GO. Scale bars, 200 nm. (B) M-H curve of GO, MNP, and MagGO. (C) AFM image of MagGO and the height of GO in MagGO. Scale bars, 500 nm. (D, F, and H) Cell viability of <t>U87</t> <t>(D),</t> <t>MDA-MB-231</t> (F), and A549 (H) cells treated with MNP and MagGO under RMF and 3D MF (RMF combined with OMF stimulation) at 5 Hz. The applied field strength is 75 mT. The data were presented as the mean ± SD. (E, G, and I) Cell viability of U87 (E), MDA-MB-231 (G), and A549 (I) cells treated with MNP and MagGO under 3D MF of different frequencies. The applied field strength is 75 mT. The data were presented as the mean ± SD.
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    MagGO induces tumor cell death via frequency- and mode-dependent mechanical disruption (A) TEM images of MagGO synthesized under MF. The dashed white line represents the contour edge of GO. Scale bars, 200 nm. (B) M-H curve of GO, MNP, and MagGO. (C) AFM image of MagGO and the height of GO in MagGO. Scale bars, 500 nm. (D, F, and H) Cell viability of <t>U87</t> <t>(D),</t> <t>MDA-MB-231</t> (F), and A549 (H) cells treated with MNP and MagGO under RMF and 3D MF (RMF combined with OMF stimulation) at 5 Hz. The applied field strength is 75 mT. The data were presented as the mean ± SD. (E, G, and I) Cell viability of U87 (E), MDA-MB-231 (G), and A549 (I) cells treated with MNP and MagGO under 3D MF of different frequencies. The applied field strength is 75 mT. The data were presented as the mean ± SD.
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    MagGO induces tumor cell death via frequency- and mode-dependent mechanical disruption (A) TEM images of MagGO synthesized under MF. The dashed white line represents the contour edge of GO. Scale bars, 200 nm. (B) M-H curve of GO, MNP, and MagGO. (C) AFM image of MagGO and the height of GO in MagGO. Scale bars, 500 nm. (D, F, and H) Cell viability of <t>U87</t> <t>(D),</t> <t>MDA-MB-231</t> (F), and A549 (H) cells treated with MNP and MagGO under RMF and 3D MF (RMF combined with OMF stimulation) at 5 Hz. The applied field strength is 75 mT. The data were presented as the mean ± SD. (E, G, and I) Cell viability of U87 (E), MDA-MB-231 (G), and A549 (I) cells treated with MNP and MagGO under 3D MF of different frequencies. The applied field strength is 75 mT. The data were presented as the mean ± SD.
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    MagGO induces tumor cell death via frequency- and mode-dependent mechanical disruption (A) TEM images of MagGO synthesized under MF. The dashed white line represents the contour edge of GO. Scale bars, 200 nm. (B) M-H curve of GO, MNP, and MagGO. (C) AFM image of MagGO and the height of GO in MagGO. Scale bars, 500 nm. (D, F, and H) Cell viability of <t>U87</t> <t>(D),</t> <t>MDA-MB-231</t> (F), and A549 (H) cells treated with MNP and MagGO under RMF and 3D MF (RMF combined with OMF stimulation) at 5 Hz. The applied field strength is 75 mT. The data were presented as the mean ± SD. (E, G, and I) Cell viability of U87 (E), MDA-MB-231 (G), and A549 (I) cells treated with MNP and MagGO under 3D MF of different frequencies. The applied field strength is 75 mT. The data were presented as the mean ± SD.
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    MagGO induces tumor cell death via frequency- and mode-dependent mechanical disruption (A) TEM images of MagGO synthesized under MF. The dashed white line represents the contour edge of GO. Scale bars, 200 nm. (B) M-H curve of GO, MNP, and MagGO. (C) AFM image of MagGO and the height of GO in MagGO. Scale bars, 500 nm. (D, F, and H) Cell viability of <t>U87</t> <t>(D),</t> <t>MDA-MB-231</t> (F), and A549 (H) cells treated with MNP and MagGO under RMF and 3D MF (RMF combined with OMF stimulation) at 5 Hz. The applied field strength is 75 mT. The data were presented as the mean ± SD. (E, G, and I) Cell viability of U87 (E), MDA-MB-231 (G), and A549 (I) cells treated with MNP and MagGO under 3D MF of different frequencies. The applied field strength is 75 mT. The data were presented as the mean ± SD.
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    MagGO induces tumor cell death via frequency- and mode-dependent mechanical disruption (A) TEM images of MagGO synthesized under MF. The dashed white line represents the contour edge of GO. Scale bars, 200 nm. (B) M-H curve of GO, MNP, and MagGO. (C) AFM image of MagGO and the height of GO in MagGO. Scale bars, 500 nm. (D, F, and H) Cell viability of <t>U87</t> <t>(D),</t> <t>MDA-MB-231</t> (F), and A549 (H) cells treated with MNP and MagGO under RMF and 3D MF (RMF combined with OMF stimulation) at 5 Hz. The applied field strength is 75 mT. The data were presented as the mean ± SD. (E, G, and I) Cell viability of U87 (E), MDA-MB-231 (G), and A549 (I) cells treated with MNP and MagGO under 3D MF of different frequencies. The applied field strength is 75 mT. The data were presented as the mean ± SD.
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    MagGO induces tumor cell death via frequency- and mode-dependent mechanical disruption (A) TEM images of MagGO synthesized under MF. The dashed white line represents the contour edge of GO. Scale bars, 200 nm. (B) M-H curve of GO, MNP, and MagGO. (C) AFM image of MagGO and the height of GO in MagGO. Scale bars, 500 nm. (D, F, and H) Cell viability of U87 (D), MDA-MB-231 (F), and A549 (H) cells treated with MNP and MagGO under RMF and 3D MF (RMF combined with OMF stimulation) at 5 Hz. The applied field strength is 75 mT. The data were presented as the mean ± SD. (E, G, and I) Cell viability of U87 (E), MDA-MB-231 (G), and A549 (I) cells treated with MNP and MagGO under 3D MF of different frequencies. The applied field strength is 75 mT. The data were presented as the mean ± SD.

    Journal: iScience

    Article Title: An atom-edged magnetic nanomotor for cancer mechanotherapy

    doi: 10.1016/j.isci.2026.114994

    Figure Lengend Snippet: MagGO induces tumor cell death via frequency- and mode-dependent mechanical disruption (A) TEM images of MagGO synthesized under MF. The dashed white line represents the contour edge of GO. Scale bars, 200 nm. (B) M-H curve of GO, MNP, and MagGO. (C) AFM image of MagGO and the height of GO in MagGO. Scale bars, 500 nm. (D, F, and H) Cell viability of U87 (D), MDA-MB-231 (F), and A549 (H) cells treated with MNP and MagGO under RMF and 3D MF (RMF combined with OMF stimulation) at 5 Hz. The applied field strength is 75 mT. The data were presented as the mean ± SD. (E, G, and I) Cell viability of U87 (E), MDA-MB-231 (G), and A549 (I) cells treated with MNP and MagGO under 3D MF of different frequencies. The applied field strength is 75 mT. The data were presented as the mean ± SD.

    Article Snippet: Glioblastoma U87 cells, human breast cancer cell line MDA-MB-231 cells, and human lung adenocarcinoma cell line A549 cells (American Type Culture Collection, Manassas, VA, USA) were cultured at 37°C under a humidified atmosphere containing 5% CO 2 with culture medium DMEM (Hyclone) containing of 1% penicillin and streptomycin (Hyclone) and 10% fetal bovine serum (FBS, Gibco).

    Techniques: Disruption, Synthesized

    MagGO induces lysosomal disruption (A) CLSM images of MNPs and MagGO in U87 cells. Lysosomes were stained with LysoTracker red (red), and the MNPs and MagGO were labeled with FITC (green). Scale bars, 15 μm. (B and C) Intensity profiles (white dashed line) of signals from lysosome and MNPs/MagGO fluorescent channels in (A). (D) CLSM images of MNPs and MagGO in MDA-MB-231 cells. Lysosomes were stained with LysoTracker red (red), and the MNPs and MagGO were labeled with FITC (green). Scale bars, 15 μm. (E and F) Intensity profiles (white dashed line) of signals from lysosomes and MNPs/MagGO fluorescent channels in (D). (G) CLSM images of MNPs and MagGO in A549 cells. Lysosomes were stained with LysoTracker red (red), and the MNPs and MagGO were labeled with FITC (green). Scale bars, 15 μm. (H and I) Intensity profiles (white dashed line) of signals from lysosomes and MNPs/MagGO fluorescent channels in (G). (J) CLSM images of U87 cells transfected with the EGFP-Gal3 plasmid after MagGO treatment under 3D MF. The applied field strength is 75 mT. The duration of magnetic field application is 30 min. Scale bars, 15 μm. (K) Counts of Gal3 puncta per U87 cell ( n = 10). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (L) Counts of Gal3 puncta per MDA-MB-231 cell ( n = 10). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (M) Counts of Gal3 puncta per A549 cell ( n = 10). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (N) Bio-TEM of lysosomal membrane morphology after mechanoporation for MagGO and MagGO+3D MF. The applied field strength is 75 mT. The duration of magnetic field application is 30 min. Scale bars, 1 μm. The dark blue arrow indicates the site of LMP, while the length of the blue arrow represents the size of the lysosomal membrane “wound”.

    Journal: iScience

    Article Title: An atom-edged magnetic nanomotor for cancer mechanotherapy

    doi: 10.1016/j.isci.2026.114994

    Figure Lengend Snippet: MagGO induces lysosomal disruption (A) CLSM images of MNPs and MagGO in U87 cells. Lysosomes were stained with LysoTracker red (red), and the MNPs and MagGO were labeled with FITC (green). Scale bars, 15 μm. (B and C) Intensity profiles (white dashed line) of signals from lysosome and MNPs/MagGO fluorescent channels in (A). (D) CLSM images of MNPs and MagGO in MDA-MB-231 cells. Lysosomes were stained with LysoTracker red (red), and the MNPs and MagGO were labeled with FITC (green). Scale bars, 15 μm. (E and F) Intensity profiles (white dashed line) of signals from lysosomes and MNPs/MagGO fluorescent channels in (D). (G) CLSM images of MNPs and MagGO in A549 cells. Lysosomes were stained with LysoTracker red (red), and the MNPs and MagGO were labeled with FITC (green). Scale bars, 15 μm. (H and I) Intensity profiles (white dashed line) of signals from lysosomes and MNPs/MagGO fluorescent channels in (G). (J) CLSM images of U87 cells transfected with the EGFP-Gal3 plasmid after MagGO treatment under 3D MF. The applied field strength is 75 mT. The duration of magnetic field application is 30 min. Scale bars, 15 μm. (K) Counts of Gal3 puncta per U87 cell ( n = 10). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (L) Counts of Gal3 puncta per MDA-MB-231 cell ( n = 10). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (M) Counts of Gal3 puncta per A549 cell ( n = 10). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (N) Bio-TEM of lysosomal membrane morphology after mechanoporation for MagGO and MagGO+3D MF. The applied field strength is 75 mT. The duration of magnetic field application is 30 min. Scale bars, 1 μm. The dark blue arrow indicates the site of LMP, while the length of the blue arrow represents the size of the lysosomal membrane “wound”.

    Article Snippet: Glioblastoma U87 cells, human breast cancer cell line MDA-MB-231 cells, and human lung adenocarcinoma cell line A549 cells (American Type Culture Collection, Manassas, VA, USA) were cultured at 37°C under a humidified atmosphere containing 5% CO 2 with culture medium DMEM (Hyclone) containing of 1% penicillin and streptomycin (Hyclone) and 10% fetal bovine serum (FBS, Gibco).

    Techniques: Disruption, Staining, Labeling, Transfection, Plasmid Preparation, Membrane

    MagGO primarily induces pyroptosis as the mode of cell death (A–C) CLSM images of CTSB release of U87 (A), MDA-MB-231 (B), and A549 (C) cells after MagGO treatment under 3D MF. The applied field strength is 75 mT. The duration of magnetic field application is 30 min. Scale bars, 20 μm. (D–F) The cell viabilities of U87 (D), MDA-MB-231 (E), and A549 (F) cells treated with MagGO were assessed after pre-treatment with z-VAD-FMK (10 μM), Necrostatin-1 (10 μM), 3-Methyladenine (10 μM), Ferrostatin-1 (2 μM), and MCC950 (10 nM) for 4 h, followed by exposure to 3D MF at 5 Hz for 30 min. The applied field strength was 75 mT. The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post hoc test. (G and H) Quantification of IL-1β (G) and IL-18 (H) release from U87 cells for control, MagGO, and MagGO+3D MF ( n = 3). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (I and J) Western blot analysis of Casp-1 (I) and GSDMD (J) in U87 cells for control, MagGO, and MagGO+3D MF.

    Journal: iScience

    Article Title: An atom-edged magnetic nanomotor for cancer mechanotherapy

    doi: 10.1016/j.isci.2026.114994

    Figure Lengend Snippet: MagGO primarily induces pyroptosis as the mode of cell death (A–C) CLSM images of CTSB release of U87 (A), MDA-MB-231 (B), and A549 (C) cells after MagGO treatment under 3D MF. The applied field strength is 75 mT. The duration of magnetic field application is 30 min. Scale bars, 20 μm. (D–F) The cell viabilities of U87 (D), MDA-MB-231 (E), and A549 (F) cells treated with MagGO were assessed after pre-treatment with z-VAD-FMK (10 μM), Necrostatin-1 (10 μM), 3-Methyladenine (10 μM), Ferrostatin-1 (2 μM), and MCC950 (10 nM) for 4 h, followed by exposure to 3D MF at 5 Hz for 30 min. The applied field strength was 75 mT. The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post hoc test. (G and H) Quantification of IL-1β (G) and IL-18 (H) release from U87 cells for control, MagGO, and MagGO+3D MF ( n = 3). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (I and J) Western blot analysis of Casp-1 (I) and GSDMD (J) in U87 cells for control, MagGO, and MagGO+3D MF.

    Article Snippet: Glioblastoma U87 cells, human breast cancer cell line MDA-MB-231 cells, and human lung adenocarcinoma cell line A549 cells (American Type Culture Collection, Manassas, VA, USA) were cultured at 37°C under a humidified atmosphere containing 5% CO 2 with culture medium DMEM (Hyclone) containing of 1% penicillin and streptomycin (Hyclone) and 10% fetal bovine serum (FBS, Gibco).

    Techniques: Control, Western Blot

    Broad antitumor activity of MagGO across multiple tumor models (A) Schematic illustrations of in vivo anticancer therapy for MDA-MB-231 and A549 tumors. The applied field strength is 75 mT. The applied field frequency is 5 Hz. The duration of magnetic field application is 30 min. (B) The MDA-MB-231 tumor volume comparison of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF for 14 days ( n = 5). (C) The MDA-MB-231 tumor images of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). (D) The MDA-MB-231 tumor weight of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post hoc test. (E) The MDA-MB-231 tumor volume of each mouse in the control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF groups for 14 days. (F) The A549 tumor volume comparison of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF for 14 days ( n = 5). (G) The A549 tumor images of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). (H) The A549 tumor weight of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post hoc test. (I) The A549 tumor volume of each mouse in the control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF groups for 14 days.

    Journal: iScience

    Article Title: An atom-edged magnetic nanomotor for cancer mechanotherapy

    doi: 10.1016/j.isci.2026.114994

    Figure Lengend Snippet: Broad antitumor activity of MagGO across multiple tumor models (A) Schematic illustrations of in vivo anticancer therapy for MDA-MB-231 and A549 tumors. The applied field strength is 75 mT. The applied field frequency is 5 Hz. The duration of magnetic field application is 30 min. (B) The MDA-MB-231 tumor volume comparison of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF for 14 days ( n = 5). (C) The MDA-MB-231 tumor images of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). (D) The MDA-MB-231 tumor weight of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post hoc test. (E) The MDA-MB-231 tumor volume of each mouse in the control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF groups for 14 days. (F) The A549 tumor volume comparison of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF for 14 days ( n = 5). (G) The A549 tumor images of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). (H) The A549 tumor weight of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post hoc test. (I) The A549 tumor volume of each mouse in the control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF groups for 14 days.

    Article Snippet: Glioblastoma U87 cells, human breast cancer cell line MDA-MB-231 cells, and human lung adenocarcinoma cell line A549 cells (American Type Culture Collection, Manassas, VA, USA) were cultured at 37°C under a humidified atmosphere containing 5% CO 2 with culture medium DMEM (Hyclone) containing of 1% penicillin and streptomycin (Hyclone) and 10% fetal bovine serum (FBS, Gibco).

    Techniques: Activity Assay, In Vivo, Comparison, Control

    MagGO induces tumor cell death via frequency- and mode-dependent mechanical disruption (A) TEM images of MagGO synthesized under MF. The dashed white line represents the contour edge of GO. Scale bars, 200 nm. (B) M-H curve of GO, MNP, and MagGO. (C) AFM image of MagGO and the height of GO in MagGO. Scale bars, 500 nm. (D, F, and H) Cell viability of U87 (D), MDA-MB-231 (F), and A549 (H) cells treated with MNP and MagGO under RMF and 3D MF (RMF combined with OMF stimulation) at 5 Hz. The applied field strength is 75 mT. The data were presented as the mean ± SD. (E, G, and I) Cell viability of U87 (E), MDA-MB-231 (G), and A549 (I) cells treated with MNP and MagGO under 3D MF of different frequencies. The applied field strength is 75 mT. The data were presented as the mean ± SD.

    Journal: iScience

    Article Title: An atom-edged magnetic nanomotor for cancer mechanotherapy

    doi: 10.1016/j.isci.2026.114994

    Figure Lengend Snippet: MagGO induces tumor cell death via frequency- and mode-dependent mechanical disruption (A) TEM images of MagGO synthesized under MF. The dashed white line represents the contour edge of GO. Scale bars, 200 nm. (B) M-H curve of GO, MNP, and MagGO. (C) AFM image of MagGO and the height of GO in MagGO. Scale bars, 500 nm. (D, F, and H) Cell viability of U87 (D), MDA-MB-231 (F), and A549 (H) cells treated with MNP and MagGO under RMF and 3D MF (RMF combined with OMF stimulation) at 5 Hz. The applied field strength is 75 mT. The data were presented as the mean ± SD. (E, G, and I) Cell viability of U87 (E), MDA-MB-231 (G), and A549 (I) cells treated with MNP and MagGO under 3D MF of different frequencies. The applied field strength is 75 mT. The data were presented as the mean ± SD.

    Article Snippet: Human: MDA-MB-231 , ATCC , Cat#HTB-26.

    Techniques: Disruption, Synthesized

    MagGO induces lysosomal disruption (A) CLSM images of MNPs and MagGO in U87 cells. Lysosomes were stained with LysoTracker red (red), and the MNPs and MagGO were labeled with FITC (green). Scale bars, 15 μm. (B and C) Intensity profiles (white dashed line) of signals from lysosome and MNPs/MagGO fluorescent channels in (A). (D) CLSM images of MNPs and MagGO in MDA-MB-231 cells. Lysosomes were stained with LysoTracker red (red), and the MNPs and MagGO were labeled with FITC (green). Scale bars, 15 μm. (E and F) Intensity profiles (white dashed line) of signals from lysosomes and MNPs/MagGO fluorescent channels in (D). (G) CLSM images of MNPs and MagGO in A549 cells. Lysosomes were stained with LysoTracker red (red), and the MNPs and MagGO were labeled with FITC (green). Scale bars, 15 μm. (H and I) Intensity profiles (white dashed line) of signals from lysosomes and MNPs/MagGO fluorescent channels in (G). (J) CLSM images of U87 cells transfected with the EGFP-Gal3 plasmid after MagGO treatment under 3D MF. The applied field strength is 75 mT. The duration of magnetic field application is 30 min. Scale bars, 15 μm. (K) Counts of Gal3 puncta per U87 cell ( n = 10). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (L) Counts of Gal3 puncta per MDA-MB-231 cell ( n = 10). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (M) Counts of Gal3 puncta per A549 cell ( n = 10). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (N) Bio-TEM of lysosomal membrane morphology after mechanoporation for MagGO and MagGO+3D MF. The applied field strength is 75 mT. The duration of magnetic field application is 30 min. Scale bars, 1 μm. The dark blue arrow indicates the site of LMP, while the length of the blue arrow represents the size of the lysosomal membrane “wound”.

    Journal: iScience

    Article Title: An atom-edged magnetic nanomotor for cancer mechanotherapy

    doi: 10.1016/j.isci.2026.114994

    Figure Lengend Snippet: MagGO induces lysosomal disruption (A) CLSM images of MNPs and MagGO in U87 cells. Lysosomes were stained with LysoTracker red (red), and the MNPs and MagGO were labeled with FITC (green). Scale bars, 15 μm. (B and C) Intensity profiles (white dashed line) of signals from lysosome and MNPs/MagGO fluorescent channels in (A). (D) CLSM images of MNPs and MagGO in MDA-MB-231 cells. Lysosomes were stained with LysoTracker red (red), and the MNPs and MagGO were labeled with FITC (green). Scale bars, 15 μm. (E and F) Intensity profiles (white dashed line) of signals from lysosomes and MNPs/MagGO fluorescent channels in (D). (G) CLSM images of MNPs and MagGO in A549 cells. Lysosomes were stained with LysoTracker red (red), and the MNPs and MagGO were labeled with FITC (green). Scale bars, 15 μm. (H and I) Intensity profiles (white dashed line) of signals from lysosomes and MNPs/MagGO fluorescent channels in (G). (J) CLSM images of U87 cells transfected with the EGFP-Gal3 plasmid after MagGO treatment under 3D MF. The applied field strength is 75 mT. The duration of magnetic field application is 30 min. Scale bars, 15 μm. (K) Counts of Gal3 puncta per U87 cell ( n = 10). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (L) Counts of Gal3 puncta per MDA-MB-231 cell ( n = 10). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (M) Counts of Gal3 puncta per A549 cell ( n = 10). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (N) Bio-TEM of lysosomal membrane morphology after mechanoporation for MagGO and MagGO+3D MF. The applied field strength is 75 mT. The duration of magnetic field application is 30 min. Scale bars, 1 μm. The dark blue arrow indicates the site of LMP, while the length of the blue arrow represents the size of the lysosomal membrane “wound”.

    Article Snippet: Human: MDA-MB-231 , ATCC , Cat#HTB-26.

    Techniques: Disruption, Staining, Labeling, Transfection, Plasmid Preparation, Membrane

    MagGO primarily induces pyroptosis as the mode of cell death (A–C) CLSM images of CTSB release of U87 (A), MDA-MB-231 (B), and A549 (C) cells after MagGO treatment under 3D MF. The applied field strength is 75 mT. The duration of magnetic field application is 30 min. Scale bars, 20 μm. (D–F) The cell viabilities of U87 (D), MDA-MB-231 (E), and A549 (F) cells treated with MagGO were assessed after pre-treatment with z-VAD-FMK (10 μM), Necrostatin-1 (10 μM), 3-Methyladenine (10 μM), Ferrostatin-1 (2 μM), and MCC950 (10 nM) for 4 h, followed by exposure to 3D MF at 5 Hz for 30 min. The applied field strength was 75 mT. The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post hoc test. (G and H) Quantification of IL-1β (G) and IL-18 (H) release from U87 cells for control, MagGO, and MagGO+3D MF ( n = 3). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (I and J) Western blot analysis of Casp-1 (I) and GSDMD (J) in U87 cells for control, MagGO, and MagGO+3D MF.

    Journal: iScience

    Article Title: An atom-edged magnetic nanomotor for cancer mechanotherapy

    doi: 10.1016/j.isci.2026.114994

    Figure Lengend Snippet: MagGO primarily induces pyroptosis as the mode of cell death (A–C) CLSM images of CTSB release of U87 (A), MDA-MB-231 (B), and A549 (C) cells after MagGO treatment under 3D MF. The applied field strength is 75 mT. The duration of magnetic field application is 30 min. Scale bars, 20 μm. (D–F) The cell viabilities of U87 (D), MDA-MB-231 (E), and A549 (F) cells treated with MagGO were assessed after pre-treatment with z-VAD-FMK (10 μM), Necrostatin-1 (10 μM), 3-Methyladenine (10 μM), Ferrostatin-1 (2 μM), and MCC950 (10 nM) for 4 h, followed by exposure to 3D MF at 5 Hz for 30 min. The applied field strength was 75 mT. The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post hoc test. (G and H) Quantification of IL-1β (G) and IL-18 (H) release from U87 cells for control, MagGO, and MagGO+3D MF ( n = 3). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post-hoc test. (I and J) Western blot analysis of Casp-1 (I) and GSDMD (J) in U87 cells for control, MagGO, and MagGO+3D MF.

    Article Snippet: Human: MDA-MB-231 , ATCC , Cat#HTB-26.

    Techniques: Control, Western Blot

    Broad antitumor activity of MagGO across multiple tumor models (A) Schematic illustrations of in vivo anticancer therapy for MDA-MB-231 and A549 tumors. The applied field strength is 75 mT. The applied field frequency is 5 Hz. The duration of magnetic field application is 30 min. (B) The MDA-MB-231 tumor volume comparison of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF for 14 days ( n = 5). (C) The MDA-MB-231 tumor images of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). (D) The MDA-MB-231 tumor weight of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post hoc test. (E) The MDA-MB-231 tumor volume of each mouse in the control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF groups for 14 days. (F) The A549 tumor volume comparison of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF for 14 days ( n = 5). (G) The A549 tumor images of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). (H) The A549 tumor weight of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post hoc test. (I) The A549 tumor volume of each mouse in the control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF groups for 14 days.

    Journal: iScience

    Article Title: An atom-edged magnetic nanomotor for cancer mechanotherapy

    doi: 10.1016/j.isci.2026.114994

    Figure Lengend Snippet: Broad antitumor activity of MagGO across multiple tumor models (A) Schematic illustrations of in vivo anticancer therapy for MDA-MB-231 and A549 tumors. The applied field strength is 75 mT. The applied field frequency is 5 Hz. The duration of magnetic field application is 30 min. (B) The MDA-MB-231 tumor volume comparison of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF for 14 days ( n = 5). (C) The MDA-MB-231 tumor images of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). (D) The MDA-MB-231 tumor weight of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post hoc test. (E) The MDA-MB-231 tumor volume of each mouse in the control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF groups for 14 days. (F) The A549 tumor volume comparison of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF for 14 days ( n = 5). (G) The A549 tumor images of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). (H) The A549 tumor weight of control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF ( n = 5). The data were presented as the mean ± SD. Data were analyzed by one-way ANOVA with Tukey’s post hoc test. (I) The A549 tumor volume of each mouse in the control, MNP, MagGO, MNP+3D MF, and MagGO+3D MF groups for 14 days.

    Article Snippet: Human: MDA-MB-231 , ATCC , Cat#HTB-26.

    Techniques: Activity Assay, In Vivo, Comparison, Control