化学
抗体
结合
作用机理
病毒进入
病毒包膜
病毒
受体
细胞培养
结构-活动关系
体外
单克隆抗体
生物活性
生物化学
中和抗体
细胞
毛茛
立体化学
机制(生物学)
转染
化学合成
构象变化
细胞生物学
抗原
血浆蛋白结合
作者
Yutaro Miura,Kohei Tsuji,Takuya Kobayakawa,Kaho Matsumoto,Takeo Kuwata,Riku Matsuzaki,Shuzo Matsushita,Hirokazu Tamamura
标识
DOI:10.1021/acs.jmedchem.5c01552
摘要
The development of new anti-HIV drugs with a novel mechanism of action is still required. A human cell surface protein, CD4, is a primary receptor for HIV-1 entry, and we have developed small-molecule CD4-competitive HIV-1 entry inhibitors, including CD4 mimics. CD4 mimics bind to a viral envelope protein, gp120, and cause a conformational change. Combinational use of CD4 mimics with CD4-induced antibodies, which recognize the exposed regions of gp120 induced by the CD4/CD4 mimic binding, shows a synergistic effect of anti-HIV activity. Therefore, we envisioned that antibody-drug conjugates (ADCs) of CD4 mimics and CD4-induced antibodies would effectively inhibit virus entry. Herein, ADCs of CD4 mimics and CD4-induced antibodies were designed and synthesized, and their anti-HIV-1 activities were evaluated. As a result, several synthesized ADCs exhibited 7- to 10-fold higher anti-HIV-1 activity than that of the parent antibodies, although there remains significant room for improvement in these ADCs.
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