IgG Antibody 3D Structures and Dynamics

Antibodies (Basel). 2018 Apr 19;7(2):18. doi: 10.3390/antib7020018.

Abstract

Antibodies are vital for human health because of their ability to function as nature's drugs by protecting the body from infection. In recent decades, antibodies have been used as pharmaceutics for targeted therapy in patients with cancer, autoimmune diseases, and cardiovascular diseases. Capturing the dynamic structure of antibodies and characterizing antibody fluctuation is critical for gaining a deeper understanding of their structural characteristics and for improving drug development. Current techniques for studying three-dimensional (3D) structural heterogeneity and variability of proteins have limitations in ascertaining the dynamic structural behavior of antibodies and antibody-antigen complexes. Here, we review current techniques used to study antibody structures with a focus on the recently developed individual-particle electron tomography (IPET) technique. IPET, as a particle-by-particle methodology for 3D structural characterization, has shown advantages in studying structural variety and conformational changes of antibodies, providing direct imaging data for biomolecular engineering to improve development and clinical application of synthetic antibodies.

Keywords: 3D structure of IgG; IPET; antibody dynamics; antibody engineering; antibody structure; bispecific antibody; electron tomography; homodimer antibody; individual-particle 3D image; individual-particle electron tomography; single molecule 3D image; structure of bispecific IgG1.

Publication types

  • Review