Metallomics : integrated biometal science
-
There are numerous blood-based biomarkers for assessing iron stores, but all come with certain limitations. Hepcidin is a hormone primarily produced in the liver that has been proposed as the 'master regulator' of dietary uptake and iron metabolism, and has enormous potential to provide a 'real time' indicator of body iron levels. ⋯ The role hepcidin itself plays in diseases of iron metabolism will be examined, and current efforts to translate hepcidin assays into the clinic will be critically appraised. Potential limitations of hepcidin as a marker of iron need will also be addressed, as well as the development of new therapies that directly target the hormone that sits atop the hierarchy of systemic iron metabolism.
-
This review examines recent studies on the thermodynamics of copper association with amyloid-β, α-synuclein and prion protein, with an eye towards using this information to understand the etiology of associated neurodegenerative diseases. A variety of binding affinities and binding sites, which are essential to understand the function and consequence of copper-protein interaction, have been reported for copper to these three neurobiologic systems. This current review reconciles the disparate models presented in the literature.