The invention relates to polynucleotide agents targeting a Patatin-Like Phospholipase Domain Containing 3 (PNPLA3) gene, and methods of using such polynucleotide agents to inhibit expression of a PNPLA3 gene and methods of treating subjects having Nonalcoholic Fatty Liver Disease (NAFLD) and/or a PNPLA3-associated disorder.

Compounds including a tetrapyrrolic or reduced tetrapyrrolic group/moiety and an epidermal growth factor receptor targeting group are disclosed. For example, a compound includes a tetrapyrrolic or reduced tetrapyrrolic group or moiety, a linker moiety, an epidermal growth factor receptor targeting group, and, optionally, a PET-active functional group. Uses of the compounds, for example, methods of treating a hyperproliferative tissue in an individual, and kits including one or more of the compounds are also provided.

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.

Herein is reported a bispecific antibody comprising a first binding specificity that specifically binds to a haptenylated payload and a second binding specificity that specifically binds to a blood brain barrier receptor.

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 relates to an immune checkpoint inhibitor conjugated with an sonosensitizer, a use thereof, and the like. The immune checkpoint inhibitor conjugate conjugated with an sonosensitizer according to the present invention has selectivity for tumors with respect to targeted therapy and specifically responds to ultrasonic waves, and thus can be used to produce drugs for diagnosing and treating cancer. Particularly, the conjugate of the present invention exhibits excellent solubility and stability in an aqueous solution, and provides excellent anticancer effects as compared with simple immune checkpoint inhibitors, and therefore, is expected to be useful as a novel drug for treating cancer.

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 application relates to liposomal nanovesicles comprising porphyrin-lipid conjugates within the liposomal lipid bilayer. Said porphyrin-lipid conjugate comprise porphyrins that are modified with a CH(R.sup.1)OR.sup.2 group and that chelate a metal ion. Such modifications of the porphyrin allow for ordered assembly in the lipid bilayer of the nanovesicles while resulting in a bathochromic shift in the wavelength of light absorbed by the porphyrin chromophore. These nanovesicles can be used for photothermal therapy, photodynamic therapy, photoacoustic imaging and fluorescence imaging. The application also teaches methods for preparing the porphyrin-lipid conjugates and the nanovesicles.

The invention relates to a compound of formula (I) and to the pharmaceutically acceptable salts thereof. The invention also relates to the use of said compound of formula (I) in the treatment of cancer, particularly by photodynamic therapy.

The present disclosure relates to texaphyrin compounds linked with an antitumor antibiotic such as an anthcyanine antitumor antibiotic such as doxorubicin and danurubicin. The texaphyrin and the antitumor antibiotic are joined together by a group which is cleavable in vivo and results in increased activity and deliverance of the cytotoxic compound to target cells. Also provided herein are pharmaceutical compositions and methods of use thereof.