Abstract
In vitro (or ex vivo) quantification of cellular parameters is often employed to inform systems models that define the relationship between drug exposure and response. We developed two flow cytometry based assays to evaluate the interaction between the IL-7 receptor (IL-7R) and an anti-IL-7R monoclonal antibody (Ab1). IL-7R occupancy and rate of internalization in the presence of Ab1 was determined using flow cytometry in monkeys and human whole blood. Two commercially available antibodies were used to detect IL-7R. One detected “free” and the other determined “total” receptor. Receptor internalization was measured ex vivo at various time points at 37 °C. The receptor occupancy assay was used in vivo following administration of Ab1 into cynomolgus monkeys at 0.3, 3, and 30 mg/kg. The amount of Ab1 bound to receptor and the total amount of receptor was quantified. The ex vivo receptor occupancy mean IC50 values in monkey and human whole blood were 5.64 ± 2.38 and 9.39 ± 1.54 ng/ml, respectively. The ex vivo rate of internalization of Ab1-IL-7R complex was characterized by a slope of 384 ± 24 and 2482 ± 319, for monkey and human, respectively. In the in vivo monkey study, no free IL-7R was detectable on the CD3 T cell surface at 0.25 h post-dose in all treatment groups. Free receptor levels returned to 78% on day 8 at 0.3 mg/kg, 55% on day 15 at 3 mg/kg, and 12% on day 15 at 30 mg/kg, compared to pre-dose levels. By Day 22, free IL-7R levels in all dose groups returned to their baseline. Ab1 treatment resulted in a significant reduction in total IL-7R. Effective biomeasures provide a link between species and the ex vivo and in vivo systems. Integration of these values into systems models reduces the number of model assumptions and increases the likelihood of success.
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