Covalent Stabilization of Antibody Recruitment Enhances Immune Recognition of Cancer Targets

Eden Kapcan, Benjamin P M Lake, Zi Yang, A. Zhang, Matthew S. Miller, A. Rullo
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引用次数: 8

Abstract

Antibody recruiting molecules (ARMs) represent an important class of "proximity-inducing" chemical tools with therapeutic potential. ARMs function by simultaneously binding to a hapten-specific serum antibody (Ab) (e.g., anti-dinitrophenyl (DNP)) and a cancer cell surface protein, enforcing their proximity. ARM anticancer efficacy depends on the formation of ARM:Ab complexes on the cancer cell surface, which activate immune cell recognition and elimination of the cancer cell. Problematically, ARM function in human patients may be limited by conditions that drive the dissociation of ARM:Ab complexes, namely, intrinsically low binding affinity and/or low concentrations of anti-hapten antibodies in human serum. To address this potential limitation, we previously developed a covalent ARM (cARM) chemical tool that eliminates the ARM:antibody equilibrium through a covalent linkage. In the current study, we set out to determine to what extent maximizing the stability of ARM:antibody complexes via cARMs enhances target immune recognition. We observe cARMs significantly increase target immune recognition relative to ARMs across a range of therapeutically relevant antibody concentrations. These results demonstrate that ARM therapeutic function can be dramatically enhanced by increasing the kinetic stability of ARM:antibody complexes localized on cancer cells. Our findings suggest that a) high titres/concentrations of target antibody in human serum are not neccessary and b) saturative antibody recruitment to cancer cells not sufficient, to achieve maximal ARM therapeutic function.
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抗体募集的共价稳定增强了癌症靶点的免疫识别
抗体招募分子(ARMs)是一类重要的具有治疗潜力的“接近诱导”化学工具。arm通过同时结合半抗原特异性血清抗体(Ab)(例如,抗二硝基苯(DNP))和癌细胞表面蛋白来发挥作用,从而加强它们的接近性。ARM的抗癌功效取决于在癌细胞表面形成ARM:Ab复合物,激活免疫细胞识别并消除癌细胞。问题是,人类患者的ARM功能可能受到驱动ARM:Ab复合物解离的条件的限制,即人类血清中固有的低结合亲和力和/或低浓度的抗半抗原抗体。为了解决这一潜在的限制,我们之前开发了一种共价ARM (cARM)化学工具,通过共价链接消除ARM:抗体平衡。在目前的研究中,我们着手确定在多大程度上最大化ARM的稳定性:抗体复合物通过carm增强目标免疫识别。我们观察到,在一系列治疗相关的抗体浓度范围内,相对于ARMs, carm显著增加了靶免疫识别。这些结果表明,通过增加定位于癌细胞上的ARM:抗体复合物的动力学稳定性,可以显著增强ARM的治疗功能。我们的研究结果表明,a)人类血清中不需要高滴度/高浓度的目标抗体,b)饱和抗体募集癌细胞不够,以实现最大的ARM治疗功能。
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