A method of targeting cancer tissue in a subject includes administering to the subject a plurality of functionalized Tymovirus virus or virus-like particles loaded with or conjugated to an imaging agent, a therapeutic agent or a targeting agent.

The present invention describes small molecule ligand-drug conjugates and methods of using the small molecule ligand-drug conjugates for targeted treatment of cancer in a patient in need thereof. Further described are methods of sterilizing circulating tumor cells and determining drug concentration in cancer tissue.

A porphyrin compound of Formula III

##STR00001## and composition made therefrom comprising a therapeutically effective dose of a porphyrin bound via a linker to an anti-cancer agent useful in treating cancer in a patient in need thereof or to treat cancer cells in-vitro. The compounds and compositions may be delivered by a drug delivery device as disclosed here and be part of a kit.

The invention provides compositions, kits and methods to treat a hyperproliferative disorder with an agent that increases expression of MCR1 and an MCR1 ligand. The invention also provides a method of treating drug-resistant melanoma, comprising administering an MCR1 ligand to a patient in need thereof. The present invention also provides in certain embodiments a melanoma-targeting conjugate comprising Formula (I): T-L-X wherein T is a MCR1 ligand, L is a linker, and X an anti-cancer composition, for the therapeutic treatment of a hyperproliferative disorder. The present invention also provides methods, kits and uses of the conjugate of Formula (I).

The present invention involves a novel method for treatment of coronavirus infection, including SARS-COV-2. The method comprises administering stannous protoporphyrin and/or cyanocobalamin to a human patient at risk for developing complications from coronavirus infection. The method is particularly useful where a patient has been diagnosed with coronavirus infection or has been exposed to coronavirus but has not developed symptoms of coronavirus infection.

Modified metal-organic framework (MOFs) are described that have surfaces with enhanced ability to coordinatively bond to or electrostatically interact with therapeutic agents, such as nucleic acids and small molecules and proteins with phosphate or carboxylate groups. Methods of providing the modified MOFs are described that include replacing strongly coordinating metal oxo cluster capping groups with weakly coordinating capping groups and/or incorporating organic bridging ligands with electron-withdrawing groups. MOFs with surface attached therapeutic agents (e.g., immunotherapeutic agents) prepared from the modified MOFs are also described, along with methods of using the MOFs as to treat cancer, e.g., via radiotherapy-radiodynamic therapy (RT-RDT), either with or without the co-administration of another therapeutic agent, such as a chemotherapeutic agent or an immunomodulator. Thus, the described methods can involve cancer immunotherapy and in situ cancer vaccination.

A rhodium-loaded porphyrin complex, comprising the porphyrin (meso-tri(4-sulfonatophenyl) mono(4-carboxyphenyl)porphine (C1S3TPP)) with coordinated with rhodium, effectively neutralizes the biological activity of naturally-occurring and synthetic opioids.

Provided are compositions, combinations, and methods and uses for treating a subject having a tumor or lesion, including those not responsive or resistant to prior therapeutic treatments, such as prior immune checkpoint inhibitor treatments. In some aspects, the methods include administering to the subject a targeting molecule that binds CTLA-4 conjugated with phthalocyanine dye, such as IR700. In some cases, the methods include administering an immune modulatory agent. The tumor or lesion, in some cases, a first tumor, is illuminated with a wavelength of light suitable for the activation of the phthalocyanine dye of the conjugate. The provided methods and uses provide for growth inhibition, volume reduction, and elimination of tumors and tumor cells including primary tumors, metastatic tumor cells, and/or invasive tumor cells. Also provided are compositions, combinations, methods and uses for provoking or enhancing systemic and local immune responses and for synergistic responses against tumor growth.

The present disclosure provides pharmaceutical formulations and methods for delivering a therapeutic, diagnostic, or imaging agent to CD206. In an aspect, the present disclosure encompasses a pharmaceutical formulation for administration. The pharmaceutical formulation comprises a recombinantly produced intrinsic factor (IF), wherein the IF has a glycosylation pattern that enables binding to CD206.

The present disclosure relates platinum(IV) and texaphyrin linked conjugates and compositions comprising a texaphyrin and a platinum(IV) agent. The present disclosure also provides pharmaceutical compositions of the conjugates and compositions. Also, provided herein are methods of using the instant compounds in the treatment of cancer such as a platinum resistant cancer.