The present invention provides a composition that controls pharmacokinetics. Specifically, the present invention provides: a composition for controlling pharmacokinetics, the composition containing a polyvalent cation as an active ingredient; and a method for controlling pharmacokinetics using the polyvalent cation.

Disclosed is an oleo gel composition including essential combination of synergistically acting phyto-active materials, non-psychotropic phytocannabinoids from the plant of Cannabis sativa: Cannabidiol, Cannabidiolic acid, Cannabivarin and Cannabigerol in combination with extract of Olive europaea Fruit Oil, Mentha arvensis leaf oil, and Silica colloidal anhydrous ensuring the delivery of cannabinoids to the deep tissues in order to reduce pain and inflammation of skeletal muscles and joints caused by trauma or/and induced by arthritis/osteoarthritis.

Disclosed is an oleo gel composition including essential combination of synergistically acting phyto-active materials, non-psychotropic phytocannabinoids from the plant of Cannabis sativa: Cannabidiol, Cannabidiolic acid, Cannabivarin and Cannabigerol in combination with extract of Olive europaea Fruit Oil, Mentha arvensis leaf oil, and Silica colloidal anhydrous ensuring the delivery of cannabinoids to the deep tissues in order to reduce pain and inflammation of skeletal muscles and joints caused by trauma or/and induced by arthritis/osteoarthritis.

Disclosed are cell penetrating peptides and compositions comprising such peptides that can be used to deliver agents to various cell types.

The present invention relates to a novel recombinant nanocage and use thereof wherein the nanocage is formed by self-assembly of a fusion protein including a phagocytosis enhancing protein and a self-assembling protein, and to a protein nanocage complex in which an immunogenic cell death inducer is loaded in the nanocage as an active ingredient.

This disclosure relates to antigenic EBV polypeptides and their use in eliciting antibodies against EBV. Also disclosed are antigenic polypeptides comprising an EBV polypeptide and a ferritin protein.

This disclosure relates to antigenic EBV polypeptides and their use in eliciting antibodies against EBV. Also disclosed are antigenic polypeptides comprising an EBV polypeptide and a ferritin protein.

An engineered vaccinia virus, a pharmaceutical composition containing the same, and methods for use in treating a subject in need using the same are provided. The engineered vaccinia virus includes a mutated viral sequence and a heterologous sequence. The mutated viral sequence is used for selective replication in tumor cells and/or activation of immune cells. The heterologous sequence encodes an immune co-stimulatory pathway activating molecule, immunomodulator gene, a truncated viral envelope gene, and/or a tumor suppressor. The heterologous sequence is stably incorporated into the genome of the engineered vaccinia virus. The pharmaceutical composition includes an effective amount of the engineered vaccinia virus and a pharmaceutical acceptable vehicle. The methods for use in treating the subject in need include administering the engineered vaccinia virus to the subject.

The present disclosure relates to, inter alia, pharmaceutical compositions comprising omega-3 fatty acids.

Some aspects of this disclosure provide compositions, methods, and kits for improving the specificity of RNA-programmable endonucleases, such as Cas9. Also provided are variants of Cas9, e.g., Cas9 dimers and fusion proteins, engineered to have improved specificity for cleaving nucleic acid targets. Also provided are compositions, methods, and kits for site-specific nucleic acid modification using Cas9 fusion proteins (e.g., nuclease-inactivated Cas9 fused to a nuclease catalytic domain or a recombinase catalytic domain). Such Cas9 variants are useful in clinical and research settings involving site-specific modification of DNA, for example, genomic modifications.