The disclosure provides polymeric compounds that inhibit binding of an amyloid--oligomer to cellular prion protein, methods for identifying such compounds, and their therapeutic use. In particular, the present disclosure provides a collection of anionic polymers and methods of using these compounds to treat amyloid-related disorders, e.g., Alzheimer's disease.

The present invention regards specific IBAT inhibitors useful in the prophylaxis and/or treatment of a liver disease. It also relates to compositions comprising these IBAT inhibitors, a method for treatment of the disorders, combinations with at least one other active substance, and a kit comprising the substances or the compositions.

The present invention regards specific IBAT inhibitors useful in the prophylaxis and/or treatment of a liver disease. It also relates to compositions comprising these IBAT inhibitors, a method for treatment of the disorders, combinations with at least one other active substance, and a kit comprising the substances or the compositions.

The present invention provides for metal chelating compositions which are soluble in aqueous media. The present invention also provides chelating compositions that possess acceptable iron sequestering strengths and are able to present a physical form that potentially inhibits (e.g. does not permit easy) access of iron sequestered by the compositions to the cells being targeted. Compositions comprising chelating aspects affixed to or incorporated into suitable carrier materials such that the resulting metal chelating composition is soluble in aqueous media are also provided. Disclosed herein are chelating compositions, for chelating one or more essential metals. The chelating compositions being soluble in an aqueous medium and comprising one or more metal binding chemical groups affixed to or incorporated into the structure of a carrier material, such that the resulting chelating composition is able to bind one or more metals, and remains substantially soluble in the aqueous medium with its bound metal or metals.

The present invention provides for metal chelating compositions which are soluble in aqueous media. The present invention also provides chelating compositions that possess acceptable iron sequestering strengths and are able to present a physical form that potentially inhibits (e.g. does not permit easy) access of iron sequestered by the compositions to the cells being targeted. Compositions comprising chelating aspects affixed to or incorporated into suitable carrier materials such that the resulting metal chelating composition is soluble in aqueous media are also provided. Disclosed herein are chelating compositions, for chelating one or more essential metals. The chelating compositions being soluble in an aqueous medium and comprising one or more metal binding chemical groups affixed to or incorporated into the structure of a carrier material, such that the resulting chelating composition is able to bind one or more metals, and remains substantially soluble in the aqueous medium with its bound metal or metals.

The disclosure provides polymeric compounds that inhibit binding of an amyloid--oligomer to cellular prior protein, methods for identifying such compounds, and their therapeutic use. In particular, the present disclosure provides a collection of anionic polymers and methods of using these compounds to treat amyloid-related disorders, e.g., Alzheimer's disease.