Amyloid disease prevention by transthyretin native state complexation with carborane derivatives lacking cyclooxygenase inhibition

Abstract

Misfolding and subsequent aggregation of any of a number of proteins leads to the accumulation of amyloid fibrils, which have been associated with a variety of diseases. One such amyloidogenic protein is transthyretin (TTR), a 55-kDa homotetrameric protein found in the blood plasma and cerebrospinal fluid where it binds and transports thyroxine. In humans, the T119M-TTR variant has been shown to be protective against familial amyloid polyneuropathy, a TTR amyloid disease, through kinetic stabilization of the unliganded tetrameric structure. Studies have indicated that a diverse range of small molecules may also bind TTR in the thyroxine-binding pocket and subsequently kinetically stabilize the protein's native conformation in vitro, preventing the misfolding that has been implicated in the progression of several diseases. However, cyclooxygenase inhibition is a common unwanted side effect among such small-molecule kinetic stabilizers. The recent development of transthyretin stabilizers not subject to cyclooxygenase inhibition may prove attractive for the long-term treatment of TTR misfolding diseases in humans. Such compounds are attained by incorporating aromatic carborane icosahedra at strategic points in their structures.