Disclosed herein are polynucleic acid molecules, pharmaceutical compositions, and methods for treating muscle atrophy or myotonic dystrophy.

A nanoparticle capable of crossing tissue has an iron oxide core, a first therapeutic agent, and a polymeric coating. The nanoparticles can be sterilized or part of a lyophilized formation.

Provided is a hybrid nanoparticle, including an aggregate assembled from a plurality of polymeric molecules, and a plurality of boron-doped graphene quantum dots localized in the aggregate. The polymeric molecule is preferably a pH-responsive dendrimer; the polymeric molecule and the boron-doped graphene quantum dot may be separately associated with different drugs; and hybrid nanoparticle may further include a targeting molecule, such as a rabies virus glycoprotein. Also provided is a method of controlling disassembly of a hybrid nanoparticle, including applying a high-frequency magnetic field to the hybrid nanoparticle to induce disassembly thereof. Also provided is an application of the hybrid nanoparticle for preparing a tumor-penetrating drug carrier.

The present invention is directed to micro and nanosized capsule compositions and methods of using and making the capsule compositions. The capsule compositions comprise an outer layer of lipids and/or polymers and inner contents comprising semiconductor nanoparticles. The nanoparticles are either metal oxides or quantum dots and will produce reactive oxygen species when irradiated with either electromagnetic radiation or ultrasound. The reactive oxygen species will degrade the outer layer of the capsule and cause the release of the contents, including the reactive oxygen species, into the local environment. The contents may optionally include cancer treating agent, water treating agents, antimicrobials, imaging and/or contracting agents. The outer layer may be further coated to protect it from environmental factors and/or be conjugated with a targeting molecule to increase delivery to a target.

This disclosure provides optimized formulations for CD19 antibodies and antibody-drug conjugates (ADCs)

A pepino mosaic virus (PepMV) carrier comprising a PepMV particle that has been modified to carry an imaging agent or anticancer agent is described. The PepMV carrier can be used in a method of targeting cancer cells and tissue by administering it to a subject. Cancer tissue targeted by the PepMV carrier can be imaged using an imaging agent, or treated using an anticancer agent.

The invention relates to a multilayered nanoparticle for delivery of RNA to a cell and methods of manufacturing and using the same. The multilayered nanoparticle has a core nanoparticle coated by alternating positively and negatively charged polymer layers, wherein the at least one of the negatively charged polymer layers is RNA.

Disclosed herein are polynucleic acid molecules, pharmaceutical compositions, and methods for treating muscle atrophy or myotonic dystrophy.

The use of dianhydrogalactitol provides a novel therapeutic modality for the treatment of non-small-cell lung carcinoma (NSCLC) and ovarian cancer, as well as other types of malignancy, including brain metastases of NSCLC. Dianhydrogalactitol acts as an alkylating agent on DNA that creates N.sup.7 methylation. Dianhydrogalactitol is effective in suppressing the growth of cancer stem cells and is active against tumors that are refractory to temozolomide, cisplatin, and tyrosine kinase inhibitors; the drug acts independently of the MGMT repair mechanism. Dianhydrogalactitol can be used together with other anti-neoplastic agents and can possess additive or super-additive effects.

The present disclosure relates to cannabinoid compositions used in combination with stem cell therapies. These compositions can be encapsulated (e.g., microencapsulated). In particular, these compositions can be administered to a subject, such as through oral consumption or topical treatment.