The misfolding of transthyretin (TTR), including rate-limiting tetramer dissociation and partial monomer denaturation, is sufficient for TTR misassembly into amyloid and other abnormal quaternary structures associated with three amyloid diseases: senile systemic amyloidosis, familial amyloid polyneuropathy, and familial amyloid cardiomyopathy. Small molecules can bind to one or both of the unoccupied TTR thyroid hormone-binding sites, stabilizing the native tetramer more than the dissociative transition state, thereby raising the kinetic barrier for tetramer dissociation. Herein we demonstrate that genistein, the major isoflavone natural product in soy, works in this fashion and is an excellent inhibitor of transthyretin tetramer dissociation and amyloidogenesis, reducing acid-mediated fibril formation to <10% of that exhibited by TTR alone. Genistein also inhibits the amyloidogenesis of the most common familial amyloid polyneuropathy and familial amyloid cardiomyopathy mutations in TTR: V30M and V122I, respectively. Genistein additionally inhibits tetramer dissociation under physiological conditions thought to lead to slow amyloidogenesis in humans. Furthermore, this natural product exhibits highly selective binding to TTR in plasma over all of the other plasma proteins. Isothermal titration calorimetry shows that genistein binds to TTR with negative cooperativity (K d1 ؍ 40 nM, Kd2 ؍ 1.4 M). The benefits of using a nutraceutical such as genistein to treat orphan diseases such as the TTR amyloidoses include known oral bioavailability and safety data. It is conceivable that some patients could benefit from simply increasing their intake of soy products or supplements.amyloidogenesis inhibitor ͉ kinetic stabilization F or many years nutritionists and dieticians have noted the health benefits of a soy-based diet, citing the much lower incidence of cancer, including breast cancer, in Asian countries (1-4). The isoflavone genistein (compound 1 in Fig. 1), found in various soy foods at concentrations of 1.9-229 g͞g, is the component of soy implicated in cancer chemoprevention (5). An additional 71-968 g͞g of genistein is present as its O-glucoside conjugate, genistin (2), which is rapidly deglycosylated by intestinal bacteria in vivo. Genistein is being evaluated in preliminary trials for treatment of breast, prostate, and uterine cancers (6, 7), as well as for osteoporosis (8), cardiovascular disease (9), and treatment of menopausal symptoms (10). Toxicity studies reveal that this isoflavone does not appear to cause adverse health effects, even at the relatively high concentrations used (11-13). The isoflavone daidzein (3), lacking the hydroxyl group at the 5 position of genistein, is also found in soy foods, but no chemoprotective effects have been attributed to it.Transthyretin (TTR) is a tetrameric protein composed of identical 127-aa -sheet sandwich subunits (14, 15). TTR functions to transport holo-retinol-binding protein and thyroxine (T4) in the blood and cerebrospinal fluid (16,17). Under denaturing con...
