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首页> 外文期刊>Cancer Cell >Myosin II Reactivation and Cytoskeletal Remodeling as a Hallmark and a Vulnerability in Melanoma Therapy Resistance
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Myosin II Reactivation and Cytoskeletal Remodeling as a Hallmark and a Vulnerability in Melanoma Therapy Resistance

机译:Myosin II重新激活和细胞骨骼改造作为黑色素瘤治疗抗性的标志性和脆弱性

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摘要

Despite substantial clinical benefit of targeted and immune checkpoint blockade-based therapies in melanoma, resistance inevitably develops. We show cytoskeletal remodeling and changes in expression and activity of ROCK-myosin II pathway during acquisition of resistance to MAPK inhibitors. MAPK regulates myosin II activity, but after initial therapy response, drug-resistant clones restore myosin II activity to increase survival. High ROCK-myosin II activity correlates with aggressiveness, identifying targeted therapy- and immunotherapy-resistant melanomas. Survival of resistant cells is myosin II dependent, regardless of the therapy. ROCK-myosin II ablation specifically kills resistant cells via intrinsic lethal reactive oxygen species and unresolved DNA damage and limits extrinsic myeloid and lymphoid immunosuppression. Efficacy of targeted therapies and immunotherapies can be improved by combination with ROCK inhibitors.
机译:尽管靶向和免疫检查点的大量临床益处,但基于黑色素瘤的基于疗法的疗法,抗性不可避免地发展。 我们展示了岩土骨质II通路在抗MAPK抑制剂抗性期间岩石骨骼改造和岩石 - 肌蛋白II通路表达及活性的变化。 MAPK调节肌蛋白II活性,但在初始治疗反应后,耐药克隆恢复肌蛋白II活性以增加存活率。 高岩石肌蛋白II活性与侵略性相关,鉴定靶向治疗和免疫疗法的黑色素瘤。 无论治疗如何,抗性细胞的存活是肌蛋白II依赖性。 岩肌素II消融通过内在致命的活性氧物质和未解决的DNA损伤,并限制外在的骨髓和淋巴免疫抑制来杀死抗性细胞。 通过与岩石抑制剂的组合可以改善靶向疗法和免疫疗法的功效。

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  • 来源
    《Cancer Cell》 |2020年第1期|共28页
  • 作者

    Orgaz Jose L.; Crosas-Molist Eva; Sadok Amine; Perdrix-Rosell Anna; Maiques Oscar; Rodriguez-Hernandez Irene; Monger Jo; Mele Silvia; Georgouli Mirella; Bridgeman Victoria; Karagiannis Panagiotis; Lee Rebecca; Pandya Pahini; Boehme Lena; Wallberg Fredrik; Tape Chris; Karagiannis Sophia N.; Malanchi Ilaria; Sanz-Moreno Victoria;

  • 作者单位

    Queen Mary Univ London Barts Canc Inst John Vane Sci Bldg Charterhouse Sq London EC1M 6BQ;

    Queen Mary Univ London Barts Canc Inst John Vane Sci Bldg Charterhouse Sq London EC1M 6BQ;

    Inst Canc Res Canc Res UK Canc Therapeut Unit Translat Canc Discovery Team 15 Cotswold Rd;

    Queen Mary Univ London Barts Canc Inst John Vane Sci Bldg Charterhouse Sq London EC1M 6BQ;

    Queen Mary Univ London Barts Canc Inst John Vane Sci Bldg Charterhouse Sq London EC1M 6BQ;

    Queen Mary Univ London Barts Canc Inst John Vane Sci Bldg Charterhouse Sq London EC1M 6BQ;

    Queen Mary Univ London Barts Canc Inst John Vane Sci Bldg Charterhouse Sq London EC1M 6BQ;

    Kings Coll London St Johns Inst Dermatol London SE1 9RT England;

    Kings Coll London Randall Div Cell &

    Mol Biophys New Hunts House Guys Campus London SE1 1UL;

    Francis Crick Inst Tumour Host Interact 1 Midland Rd London NW1 1AT England;

    Kings Coll London St Johns Inst Dermatol London SE1 9RT England;

    Canc Res UK Manchester Inst Mol Oncol Grp Manchester M20 4BX Lancs England;

    Kings Coll London Randall Div Cell &

    Mol Biophys New Hunts House Guys Campus London SE1 1UL;

    Kings Coll London Randall Div Cell &

    Mol Biophys New Hunts House Guys Campus London SE1 1UL;

    Inst Canc Res Chester Beatty Labs 237 Fulham Rd London SW3 6JB England;

    UCL Cell Commun Lab Canc Inst 72 Huntley St London WC1E 6DD England;

    Kings Coll London St Johns Inst Dermatol London SE1 9RT England;

    Francis Crick Inst Tumour Host Interact 1 Midland Rd London NW1 1AT England;

    Queen Mary Univ London Barts Canc Inst John Vane Sci Bldg Charterhouse Sq London EC1M 6BQ;

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  • 正文语种 eng
  • 中图分类 肿瘤学;
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