Combination therapy of a cancer with a multi-specific binding protein that bind a tumor associated antigen, the NKG2D receptor, and CD16, in combination with a second anti-cancer agent are described. Also described are pharmaceutical compositions of the multi-specific binding protein, and therapeutic methods useful for the treatment of cancer in combination with a second anti-cancer agent.

Provided are methods for treating a disease using bioengineered enucleated cells. Also provided herein are compositions comprising enucleated cells, wherein the enucleated cells have been loaded with clinically relevant biomolecules.

The present disclosure relates generally to compositions and methods for modulating signal transduction mediated by interleukin-12 and interleukin-23. In particular, the disclosure provides novel variants of interleukin-12 subunit p40 with reduced binding affinity to IL-12Rβ1. Also provided are compositions and methods useful for producing such IL-12p40 polypeptide variants, as well as methods for modulating IL-12p40-mediated signaling, and/or for the treatment of conditions associated with perturbations of signal transduction mediated by IL-12p40.

Provided herein are cytoplasts, compositions comprising cytoplasts, methods of using cytoplasts, and methods of treating a subject, such as providing benefits to a healthy or unhealthy subject, or treating or diagnosing a disease or condition in a subject. In some embodiments, methods of treating a subject include: administering to the subject a therapeutically effective amount of a composition comprising a cytoplast. Also, provided herein are compositions (e.g., pharmaceutical compositions) that include a cytoplast. Also, provided herein are kits comprising instructions for using the compositions or methods.

The presently disclosed subject matter provides compositions, methods, and kits for transfecting adipose-derived mesenchymal stem cells (AMSCs) in freshly extracted adipose tissue using nanoparticles comprising biodegradable polymers self-assembled with nucleic acid molecules. The presently disclosed subject matter also provides methods for treating a neurological disease in a patient in need thereof, the method comprising administering the AMSCs transfected with the nucleic acid molecules to the patient, wherein the nucleic acid molecules encode one or more bioactive molecules functional in the treatment of a neurological disease, particularly wherein the neurological disease is a brain tumor.

The present invention relates to a heterodimeric Fc-fused protein comprising a first Fc region and a second Fc region of an immunoglobulin Fc pair and a physiologically active protein composed of two or more different subunits, wherein one or more subunits of the physiologically active protein are linked separately to one or more ends of the N-terminus or C-terminus of the first Fc region and/or the second Fc region, and CH3 domains of the first Fc region and the second Fc region are mutated so as to promote the heterodimeric Fc formation. Moreover, the present invention relates to a pharmaceutical composition comprising the heterodimeric Fc-fused protein. The heterodimeric Fc-fused protein according to the present invention has an advantage in that it can retain the activity of a naturally occurring physiologically active protein whose two or more different subunits exhibit physiological activity by forming a protein complex, because the physiologically active protein can be linked to an immunoglobulin heterodimeric Fc such that the naturally occurring form and structure of the fused protein thereof can be maintained. When the heterodimeric Fc-fused protein according to the present invention is used, there is an advantage in that the in vivo half-life of the physiologically active protein contained in the heterodimeric Fc-fused protein can be significantly increased due to the Fc-mediated long half-life such that various physiological activities thereof in vivo can be long-lasting.

The invention relates to an anti-CD16A antigen binding protein for use in NK cell-based immunotherapy, wherein the anti-CD16A antigen binding protein is to be administered intermittently and in combination with a cytokine. In certain embodiments the antigen binding protein is a tetravalent and bispecific CD30/CD16A tandem diabody.

Provided is a cytokine combination for treating a tumor and/or preventing recurrence or metastasis of the tumor. The cytokine combination comprising at least three cytokines selected from the following groups: IL(interleukin)12 or a functional variant thereof, GMCSF (granulocyte-macrophage colony-stimulating factor) or a functional variant thereof, FLT3L (FMS-like tyrosine kinase 3 ligand) or a functional variant thereof, IL2 or a functional variant thereof, IL15 or a functional variant thereof, IL21 or a functional variant thereof, and IL7 or a functional variant thereof. Also provided is a nucleic acid molecule encoding the cytokine combination and a vector thereof, a cell, a pharmaceutical composition, and a application thereof for the manufacture of a drug for treating the tumor and/or preventing recurrence or metastasis of the tumor.

An implantable or injectable scaffold comprising immunostimulatory compounds and a suppressor of regulatory T cell induction is provided for use in immunotherapy treatments, including the treatment of cancers and other tumors, in particular solid tumors including inoperable tumors, as well as for other applications of immune enhancement and/or suppression.

An implantable or injectable scaffold comprising immunostimulatory compounds and a suppressor of regulatory T cell induction is provided for use in immunotherapy treatments, including the treatment of cancers and other tumors, in particular solid tumors including inoperable tumors, as well as for other applications of immune enhancement and/or suppression.