Abstract: Anticancer virus particles are described. Anticancer virus particles are filamentous or rod-shaped plant virus particle containing an anticancer agent within the interior of the virus particle. The anticancer agent can be attached either covalently or non-covalently within the interior of the virus particle. A therapeutically effective amount of an anticancer virus particle can be administered to a subject identified as having cancer to provide a method of cancer treatment.

Abstract: Platinum-containing compounds are generally described. For example, compounds of Formula (II) are generally described. Inventive compositions and uses thereof are also described. For example, methods of treating cancer in a subject comprising administering to the subject a therapeutically effective amount of a compound of Formula (II) are generally described.

Abstract: Compositions and methods for the selective sequestration of metal ions are generally described.

Abstract: Platinum-containing compounds are generally described. Inventive compositions and uses thereof are also described.

Abstract: Anticancer virus particles are described. Anticancer virus particles are filamentous or rod-shaped plant virus particle containing an anticancer agent within the interior of the virus particle. The anticancer agent can be attached either covalently or non-covalently within the interior of the virus particle. A therapeutically effective amount of an anticancer virus particle can be administered to a subject identified as having cancer to provide a method of cancer treatment.

Abstract: Compositions and methods comprising osmium are provided. In some embodiments, the osmium compounds comprise a bidentate ligand. In some embodiments, the osmium compounds are used in method for treating cancer.

Abstract: Anticancer virus particles are described. Anticancer virus particles are filamentous or rod-shaped plant virus particle containing an anticancer agent within the interior of the virus particle. The anticancer agent can be attached either covalently or non-covalently within the interior of the virus particle. A therapeutically effective amount of an anticancer virus particle can be administered to a subject identified as having cancer to provide a method of cancer treatment.

Abstract: Compositions and methods comprising osmium are provided. In some embodiments, the osmium compounds comprise a bidentate ligand. In some embodiments, the osmium compounds are used in method for treating cancer.

Abstract: Compositions and methods for the selective sequestration of metal ions are generally described.

Abstract: Anticancer virus particles are described. Anticancer virus particles are filamentous or rod-shaped plant virus particle containing an anticancer agent within the interior of the virus particle. The anticancer agent can be attached either covalently or non-covalently within the interior of the virus particle. A therapeutically effective amount of an anticancer virus particle can be administered to a subject identified as having cancer to provide a method of cancer treatment.

Abstract: Provided herein are compositions that contain a nanoparticle containing a plurality of polymers, wherein at least a fraction of the polymers comprise a hydrophobic polymer, a topoisomerase inhibitor, and a Pt-containing chemotherapeutic agent, where the polymers self-assemble in an aqueous liquid to form the nanoparticle, and where the Pt-containing chemotherapeutic agent and the topoisomerase inhibitor are present within the hydrophobic core of the nanoparticle in a ratio of between about 24:1 to about 1:24. Also provided are methods of reducing the proliferation of a cancer cell and methods of treating cancer in a subject that include the use of these compositions. Also provided are methods of making these nanoparticles.

Abstract: Disclosed herein are methods to promote axonal outgrowth of a neuron comprising, contacting the neuron with an effective amount of a chelating agent, to thereby promote axonal outgrowth in the neuron. Also disclosed are methods of treating a subject for a CNS lesion, comprising, administering to the subject a therapeutically effective amount of a chelating agent, Also disclosed are devices for promoting regeneration in a lesioned neuron, and pharmaceutical compositions comprising a therapeutically effective amount of a chelating agent formulated for localized administration directly to an injured neuron. Examples of such chelating agents are provided.

Abstract: Compositions and methods comprising rhenium are provided. In some embodiments, the rhenium compounds comprise a bidentate ligand. In some embodiments, the rhenium compounds are used in method for treating cancer.

Abstract: Compositions and methods comprising osmium are provided. In some embodiments, the osmium compounds comprise a bidentate ligand. In some embodiments, the osmium compounds are used in method for treating cancer.

Abstract: Disclosed are compounds and methods useful in the detection of e.g., Zn2+, in vitro and in vivo. The compounds include amino acids and peptides functionalized with a moiety that binds, e.g., Zn2+. Importantly, the compounds do not exhibit substantial fluorescence in the absence of zinc.

Abstract: Complexes comprising a platinum compound and an immune checkpoint inhibitor, and related methods, are generally provided. In some embodiments, the immune checkpoint inhibitor is an inhibitor for indoleamine-2,3-dioxygenase.

Abstract: Compositions, kits, and methods for treatment of cancers are generally provided. In some embodiments, the compositions, kits, and methods comprise a platinum (e.g., Pt(II) or Pt(IV)) compound associated with a ligand (e.g., a beta-diketonate ligand) comprising a targeting moiety. Methods of synthesizing platinum (e.g., Pt(II) or Pt(IV)) compounds associated with a ligand comprising a targeting moiety are also provided.

Abstract: The present invention provides compositions, preparations, formulations, kits, and methods useful for treating subjects in need of therapeutic protocol, including subjects having cancer or at risk of developing cancer. Some embodiments of the invention may comprise a composition comprising a first component comprising a precursor to a therapeutically active platinum agent and a precursor to a second therapeutically active agent. The therapeutically active platinum agent and the second therapeutically active agent may dissociate from each other, thereby forming a first therapeutically active platinum agent and a second therapeutically active agent. The second therapeutically active gent may affect a cellular pathway of a cancer cell and may be substantially inactive towards non-cancerous cells.

Abstract: Disclosed are compounds and methods useful in the detection of e.g., Zn2+, in vitro and in vivo. The compounds include amino acids and peptides functionalized with a moiety that binds, e.g., Zn2+. Importantly, the compounds do not exhibit substantial fluorescence in the absence of zinc.

Abstract: Compositions and methods comprising rhenium are provided. In some embodiments, the rhenium compounds comprise a bidentate ligand. In some embodiments, the rhenium compounds are used in method for treating cancer.