Abstract
Neuromyelitis Optica (NMO) is an autoimmune disease of the central nervous system where pathogenic autoantibodies target the human astrocyte water channel aquaporin-4 causing neurological impairment. Autoantibody binding leads to complement dependent and complement independent cytotoxicity, ultimately resulting in astrocyte death, demyelination, and neuronal loss. Aquaporin-4 assembles in astrocyte plasma membranes as symmetric tetramers or as arrays of tetramers. We report molecular structures of aquaporin-4 alone and bound to Fab fragments from patient-derived NMO autoantibodies using cryogenic electron microscopy. Each antibody binds to epitopes comprised of three extracellular loops of aquaporin-4 with contributions from multiple molecules in the assembly. The structures distinguish between antibodies that bind to the tetrameric form of aquaporin-4, and those targeting higher order orthogonal arrays of tetramers that provide more diverse bridging epitopes.