Abstract
Recent studies have revealed that fucosylated therapeutic IgG1s need high concentrations to compensate for FcgammaRIIIa-competitive inhibition of antibody-dependent cellular cytotoxicity (ADCC) by endogenous human plasma IgG. Here, we investigated whether ADCC of nonfucosylated therapeutic IgG1 is also influenced by plasma IgG in the same way as fucosylated IgG1s. Ex vivo ADCC upon CD20+ human B cells was induced by incubation of human whole blood with nonfucosylated and/or fucosylated anti-CD20 IgG1s rituximab, and quantified by measuring the remaining CD19+ human B cells using flow cytometry. Nonfucosylated anti-CD20 showed markedly higher (over 100-fold based on EC50) ex vivo B-cell depletion activity than its fucosylated counterpart in the presence of plasma IgG. The efficacy of fucosylated anti-CD20 was greatly diminished in plasma, resulting in the need for a high concentration (over 1.0 microg/mL) to achieve saturated efficacy. In contrast, nonfucosylated anti-CD20 reached saturated ADCC at lower concentrations (0.01-0.1 microg/mL) with much higher efficacy than fucosylated anti-CD20 in all nine donors through improved FcgammaRIIIa binding. Noteworthy, the high efficacy of nonfucosylated anti-CD20 was inhibited by addition of fucosylated anti-CD20. Thus, the efficacy of a 1:9 mixture (10 microg/mL) of nonfucosylated and fucosylated anti-CD20s was inferior to that of a 1,000-fold dilution (0.01 microg/mL) of nonfucosylated anti-CD20 alone. Our data showed that nonfucosylated IgG1, not including fucosylated counterparts, can evade the inhibitory effect of plasma IgG on ADCC through its high FcgammaRIIIa binding. Hence, nonfucosylated IgG1 exhibits strong therapeutic potential through dramatically enhanced ADCC at low doses in humans in vivo.
Highlights
Recent studies have revealed that fucosylated therapeutic IgG1s need high concentrations to compensate for FcgRIIIa-competitive inhibition of antibody-dependent cellular cytotoxicity (ADCC) by endogenous human plasma IgG
To what degree is ADCC of nonfucosylated therapeutic IgG1 influenced by human serum IgG? Second, can we expect that clinical treatment with a nonfucosylated therapeutic IgG1 will have greater therapeutic potential than treatment using a fucosylated IgG1? Human serum IgG, as well as currently marketed therapeutic antibodies, are heavily fucosylated (24 – 26)
The in vitro FcgRIIIa binding assay revealed that the mechanism for high ex vivo ADCC of nonfucosylated anti-CD20 involved the high binding affinity to FcgRIIIa even in the presence of plasma IgG
Summary
Recent studies have revealed that fucosylated therapeutic IgG1s need high concentrations to compensate for FcgRIIIa-competitive inhibition of antibody-dependent cellular cytotoxicity (ADCC) by endogenous human plasma IgG. It has been proposed that these inhibitory effects of serum IgG would be diminished in nonfucosylated therapeutic IgG1 because the binding of nonfucosylated IgG1 to FcgRIIIa is shown to be much stronger than that of the fucosylated one (15, 27 – 29) To address these issues, we analyzed ex vivo ADCC upon CD20+ human B cells induced by nonfucosylated and/or fucosylated anti-CD20 IgG1s having an amino acid sequence equivalent to that of rituximab (Rituxan). Our findings strongly suggest that nonfucosylated therapeutic IgG1 antibody, not including the fucosylated form, can evade the inhibitory influence of plasma IgG through its improved FcgRIIIa binding These nonfucosylated IgG1s exhibit strong therapeutic potential through dramatically enhanced ADCC efficacy even when administered in low doses in humans in vivo
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