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To mediate ADCC in vitro [9, 17, 23]. Although the contribution of ADCC activity to clinical efficacy is unclear, it is important to characterize all activities of the candidate mAb, especially those that can be affected by differences in post-translational modifications, such as glycosylation. The ability of ABP 501 to induce ADCC was assessed using MT-3 cells as target cells, and NK-92M1 cells s
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To mediate ADCC in vitro [9, 17, 23]. Although the contribution of ADCC activity to clinical efficacy is unclear, it is important to characterize all activities of the candidate mAb, especially those that can be affected by differences in post-translational modifications, such as glycosylation. The ability of ABP 501 to induce ADCC was assessed using MT-3 cells as target cells, and NK-92M1 cells s
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T assays were conducted, and the mean percent relative activity is reported (see text). A dose response from a single assay of the three is presented here as representative data. e Representative nonconstrained dose?response curves of ABP 501 (red), adalimumab (US) (black), and adalimumab (EU) (blue) showing binding to FcRn. Each point is a mean of three replicates ?standard deviation. Adalimumab
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T assays were conducted, and the mean percent relative activity is reported (see text). A dose response from a single assay of the three is presented here as representative data. e Representative nonconstrained dose?response curves of ABP 501 (red), adalimumab (US) (black), and adalimumab (EU) (blue) showing binding to FcRn. Each point is a mean of three replicates ?standard deviation. Adalimumab
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Assessment of the bioactivity of adalimumab should include assessment of multiple in vitro endpoints (NFjB-dependent and NFjB-independent) and should include binding to both soluble and transmembrane TNFa. ABP 501 has been shown to be similar to adalimumab in its ability to neutralize TNFa-induced caspase activation, chemokine production, and cytotoxicity, functions inclusive of both NFjB-dependen
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Een shown to be similar to adalimumab with respect to binding to a panel of Fc receptors, including FccRIa, FccRIIa, FccRIIIa (158V) (with and without TNFa), and FccRIIIa (158F). Importantly, effector function activation (ADCC and CDC) was also demonstrated to be similar between ABP 501 and adalimumab using highly sensitive methods. The ADCC and CDC methods have been demonstrated to be sensitive t
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Een shown to be similar to adalimumab with respect to binding to a panel of Fc receptors, including FccRIa, FccRIIa, FccRIIIa (158V) (with and without TNFa), and FccRIIIa (158F). Importantly, effector function activation (ADCC and CDC) was also demonstrated to be similar between ABP 501 and adalimumab using highly sensitive methods. The ADCC and CDC methods have been demonstrated to be sensitive t
1
T assays were conducted, and the mean percent relative activity is reported (see text). A dose response from a single assay of the three is presented here as representative data. e Representative nonconstrained dose?response curves of ABP 501 (red), adalimumab (US) (black), and adalimumab (EU) (blue) showing binding to FcRn. Each point is a mean of three replicates ?standard deviation. Adalimumab