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
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
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
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
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
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
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
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