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首页> 外文期刊>International Journal of Cancer =: Journal International du Cancer >Newly developed anti-S100A8/A9 monoclonal antibody efficiently prevents lung tropic cancer metastasis
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Newly developed anti-S100A8/A9 monoclonal antibody efficiently prevents lung tropic cancer metastasis

机译:新开发的抗S100A8 / A9单克隆抗体有效地预防肺热带癌转移

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摘要

The metastatic dissemination of cancer cells to remote areas of the body is the most problematic aspect in cancer patients. Among cancers, melanomas are notoriously difficult to treat due to their significantly high metastatic potential even during early stages. Hence, the establishment of advanced therapeutic approaches to regulate metastasis is required to overcome the melanoma disease. An accumulating mass of evidence has indicated a critical role of extracellular S100A8/A9 in melanoma distant metastasis. Lung S100A8/A9 is induced by melanoma cells from distant organs and it attracts these cells to its enriched lung environment since melanoma cells possess several receptors that sense the S100A8/A9 ligand. We hence aimed to develop a neutralizing antibody against S100A8/A9 that would efficiently block melanoma lung metastasis. Our protocol provided us with one prominent antibody, Ab45 that efficiently suppressed not only S100A8/A9-mediated melanoma mobility but also lung tropic melanoma metastasis in a mouse model. This prompted us to make chimeric Ab45, a chimera antibody consisting of mouse Ab45-Fab and human IgG2-Fc. Chimeric Ab45 also showed significant inhibition of the lung metastasis of melanoma. From these results, we have high hopes that the newly produced antibody will become a potential biological tool to block melanoma metastasis in future clinical settings.
机译:癌细胞转移传播对身体的偏远地区是癌症患者中最有问题的方面。在癌症中,即使在早期阶段也明显高的转移性潜力,Melanomas难以理解。因此,需要建立治疗转移的先进治疗方法来克服黑素瘤疾病。积累的证据表明细胞外S100A8 / A9在黑色素瘤远处转移中的关键作用。由来自远处器官的黑色素瘤细胞诱导肺部S100A8 / A9,并且它吸引了这些细胞以富集的肺环境,因为黑素瘤细胞具有感测S100A8 / A9配体的几个受体。因此,我们旨在开发针对S100A8 / A9的中和抗体,其将有效地阻止黑色素瘤肺转移。我们的协议为我们提供了一个突出的抗体AB45,其不仅有效地抑制了S100A8 / A9介导的黑素瘤迁移率,而且有效地抑制了S100A8 / A9介导的黑素瘤迁移率,而且在小鼠模型中肺热带黑色素瘤转移。这促使我们制作嵌合AB45,由小鼠AB45-FAB和人IgG2-Fc组成的嵌合体抗体。嵌合AB45还显示出对黑色素瘤的肺转移的显着抑制。根据这些结果,我们希望新产生的抗体将成为在未来的临床环境中阻止黑色素瘤转移的潜在生物工具。

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  • 作者

    Kinoshita Rie; Sato Hiroki; Yamauchi Akira; Takahashi Yuta; Inoue Yusuke; Sumardika I. Wayan; Chen Youyi; Tomonobu Nahoko; Araki Kota; Shien Kazuhiko; Tomida Shuta; Torigoe Hidejiro; Namba Kei; Kurihara Eisuke; Ogoshi Yusuke; Murata Hitoshi; Yamamoto Ken-ichi; Futami Junichiro; Putranto Endy Widya; Ruma I. Made Winarsa; Yamamoto Hiromasa; Soh Junichi; Hibino Toshihiko; Nishibori Masahiro; Kondo Eisaku; Toyooka Shinichi; Sakaguchi Masakiyo;

  • 作者单位

    Okayama Univ Dept Cell Biol Grad Sch Med Dent &

    Pharmaceut Sci Okayama 7008558 Japan;

    Okayama Univ Dept Gen Thorac Surg &

    Breast &

    Endocrinol Surg Grad Sch Med Dent &

    Pharmaceut Sci;

    Kawasaki Med Sch Dept Biochem Okayama Japan;

    Okayama Univ Dept Gen Thorac Surg &

    Breast &

    Endocrinol Surg Grad Sch Med Dent &

    Pharmaceut Sci;

    Gunma Univ Fac Sci &

    Technol Div Mol Sci Maebashi Gunma Japan;

    Okayama Univ Dept Cell Biol Grad Sch Med Dent &

    Pharmaceut Sci Okayama 7008558 Japan;

    Okayama Univ Dept Cell Biol Grad Sch Med Dent &

    Pharmaceut Sci Okayama 7008558 Japan;

    Okayama Univ Dept Cell Biol Grad Sch Med Dent &

    Pharmaceut Sci Okayama 7008558 Japan;

    Okayama Univ Dept Gen Thorac Surg &

    Breast &

    Endocrinol Surg Grad Sch Med Dent &

    Pharmaceut Sci;

    Okayama Univ Dept Gen Thorac Surg &

    Breast &

    Endocrinol Surg Grad Sch Med Dent &

    Pharmaceut Sci;

    Okayama Univ Dept Bioinformat Grad Sch Med Dent &

    Pharmaceut Sci Okayama Japan;

    Okayama Univ Dept Gen Thorac Surg &

    Breast &

    Endocrinol Surg Grad Sch Med Dent &

    Pharmaceut Sci;

    Okayama Univ Dept Gen Thorac Surg &

    Breast &

    Endocrinol Surg Grad Sch Med Dent &

    Pharmaceut Sci;

    Okayama Univ Dept Gen Thorac Surg &

    Breast &

    Endocrinol Surg Grad Sch Med Dent &

    Pharmaceut Sci;

    Okayama Univ Dept Gen Thorac Surg &

    Breast &

    Endocrinol Surg Grad Sch Med Dent &

    Pharmaceut Sci;

    Okayama Univ Dept Cell Biol Grad Sch Med Dent &

    Pharmaceut Sci Okayama 7008558 Japan;

    Okayama Univ Dept Cell Biol Grad Sch Med Dent &

    Pharmaceut Sci Okayama 7008558 Japan;

    Okayama Univ Dept Interdisciplinary Sci &

    Engn Hlth Syst Okayama Japan;

    Univ Gadjah Mada Dept Child Hlth Fac Med Yogyakarta Indonesia;

    Okayama Univ Dept Cell Biol Grad Sch Med Dent &

    Pharmaceut Sci Okayama 7008558 Japan;

    Okayama Univ Dept Gen Thorac Surg &

    Breast &

    Endocrinol Surg Grad Sch Med Dent &

    Pharmaceut Sci;

    Okayama Univ Dept Gen Thorac Surg &

    Breast &

    Endocrinol Surg Grad Sch Med Dent &

    Pharmaceut Sci;

    Tokyo Med Univ Dept Dermatol Tokyo Japan;

    Okayama Univ Dept Pharmacol Grad Sch Med Dent &

    Pharmaceut Sci Okayama Japan;

    Niigata Univ Div Mol &

    Cellular Pathol Grad Sch Med &

    Dent Sci Niigata Japan;

    Okayama Univ Dept Gen Thorac Surg &

    Breast &

    Endocrinol Surg Grad Sch Med Dent &

    Pharmaceut Sci;

    Okayama Univ Dept Cell Biol Grad Sch Med Dent &

    Pharmaceut Sci Okayama 7008558 Japan;

  • 收录信息
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类 肿瘤学;
  • 关键词

    antibody; A9; metastasis;

    机译:抗体;A9;转移;

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