Purpose: Study the impact of CXCL13 neutralization on germinal center (GC) response in vivo, and build quantitative relationship between target coverage and pharmacological effects at the target tissue.
Methods: An anti-CXCL13 neutralizing monoclonal antibody was dosed in vivo in a T-dependent mouse immunization (TDI) model. A quantitative site-of-action (SoA) model was developed to integrate antibody PK and total CXCL13 levels in serum and spleen towards estimating target coverage as a function of dose. To aid in the SoA model development, a radio-labeled study using [I(125)] CXCL13 was conducted in mice. Model estimated target coverage was linked to germinal center response using a sigmoidal inhibitory effect model.
Results: In vivo studies demonstrated that CXCL13 inhibition led to an architectural change in B-cell follicles, dislocation of GCs and a significant reduction in the GC absolute numbers per square area (GC/mm(2)). The SoA modeling analysis indicated that ~79% coverage in spleen was required to achieve 50% suppression of GC/mm(2). The 3 mg/kg dose with 52% spleen coverage resulted in no PD suppression, whereas 30 mg/kg with 93% coverage achieved close to maximum PD suppression, highlighting the steepness of PD response.
Conclusions: This study showcases an application of SoA modeling towards a quantitative understanding of CXCL13 pharmacology.