Michael Farzan, Andi Pan, Charles C. Bailey, T. Ou, Jinge Xu, Xin Liu, Baodan Hu, Gogce Crynen, Nickolas K. Skamangas, N. Bronkema, Mai H. Tran, Huihui Mu, Xia Zhang, Yiming Yin, Michael Alpert, Wenhui He
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引用次数: 0
Abstract
Abstract Many human proteins have been repurposed as biologics for clinical use. These proteins have been engineered with in vitro techniques that improve affinity for their ligands. However, these approaches do not select against properties that impair efficacy such as protease sensitivity or self-reactivity. Here we engineer the B-cell receptor of primary murine B cells to express a human protein biologic without disrupting their ability to affinity mature. Specifically, CD4 domains 1 and 2 (D1D2) of a half-life enhanced-HIV-1 entry inhibitor CD4-Ig (CD4-Ig-v0) were introduced into the heavy-chain loci of murine B cells, which were then adoptively transferred to wild-type mice. After immunization, transferred B cells proliferated, class switched, affinity matured, and efficiently produced D1D2-presenting antibodies. Somatic hypermutations found in the D1D2-encoding region of engrafted B cells improved binding affinity of CD4-Ig-v0 for the HIV-1 envelope glycoprotein (Env) and the neutralization potency of CD4-Ig-v0 by more than ten-fold across a global panel of HIV-1 isolates, without impairing its pharmacokinetic properties. Thus, affinity maturation of non-antibody protein biologics in vivo can guide development of more effective therapeutics.
摘要 许多人类蛋白质已被重新用作生物制剂用于临床。这些蛋白质经过体外技术的改造,提高了与配体的亲和力。然而,这些方法并不能避免蛋白酶敏感性或自身反应性等影响药效的特性。在这里,我们对原代小鼠 B 细胞的 B 细胞受体进行了改造,以表达一种人类蛋白生物制剂,而不破坏它们的亲合成熟能力。具体来说,我们将半衰期增强型艾滋病毒-1进入抑制剂CD4-Ig(CD4-Ig-v0)的CD4结构域1和2(D1D2)导入小鼠B细胞的重链位点,然后将其收养性转移给野生型小鼠。免疫后,转移的 B 细胞增殖、分类转换、亲和力成熟,并有效地产生了 D1D2 呈递抗体。在接种B细胞的D1D2编码区发现的体细胞高突变提高了CD4-Ig-v0与HIV-1包膜糖蛋白(Env)的结合亲和力以及CD4-Ig-v0在全球HIV-1分离株中的中和效力,提高幅度超过10倍,且不影响其药代动力学特性。因此,非抗体蛋白生物制剂在体内的亲和力成熟可以指导开发更有效的治疗方法。
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