A Molecular Model for Self-Assembly of Amyloid Fibrils: Immunoglobulin Light Chains

The formation and pathological deposition of amyloid fibrils are defining features of many acquired and inherited disorders, including primary or light-chain-associated amyloidosis, Alzheimer`s disease, and adult-onset diabetes. No pharmacological methods exist to block this process or to effect the removal of fibrils from tissue, and thus, little can be done to prevent organ failure and ultimate death that result from deposition of amyloid. Knowledge of the pathogenesis, treatment, or prevention of these presently incurable diseases is limited due to the relative paucity of information regarding the biophysical basis of amyloid formation. Antibody light chains of different amino acid sequence show differential amyloid-forming tendencies and, as such, can provide insight into the structural organization of amyloid fibrils as well as into basic mechanisms of protein self-assembly. We have compared primary structures of 180 human monoclonal light chains and have identified particular residues and positions within the variable domain that differentiate amyloid-from nonamyloid-associated proteins. We propose a molecular model that accounts for amyloid formation by antibody light chains and might also have implications for other forms of amyloidosis. 24 refs., 2 figs., 1 tab.