Abstract
Background:
Monoclonal antibodies against calcitonin gene-related peptide (CGRP) or its receptor are efficacious for the prevention of migraine headaches. The downstream molecular mechanisms following ligand-receptor blockade by which these antibodies prevent CGRP signaling through CGRP receptors have not been demonstrated.
Methods:
Here we produced tool monoclonal functional antagonist antibodies against CGRP and its canonical receptor and developed a novel cellular model using fluorogen-activated protein technology that allows detection of CGRP receptor internalization by flow cytometry and, for an extended time course, visualization by confocal microscopy.
Results:
Using this cell model we showed that these antagonist antibodies block both CGRP-induced cAMP signaling and CGRP receptor internalization. At least 10-fold higher concentrations of either antibody are necessary to block CGRP receptor internalization compared with cAMP accumulation in our cell model.
Conclusion:
These data reinforce our understanding of how monoclonal functional antagonist antibodies interfere with CGRP signaling.
Keywords:
CGRP receptor; CGRP receptor antagonist antibody; Calcitonin gene-related peptide; Migraine; Receptor recycling; Receptor trafficking.