Devices, systems, and methods can be used for the automated production of dendritic cells (DC) from dendritic cell progenitors, such as monocytes obtained from peripheral blood. The invention makes it possible to obtain sufficient quantities of a subject's own DC for use in preparing and characterizing vaccines, for activating and characterizing the activation state of the subject's immune response, and to aid in preventing and/or treating cancer or infectious disease.

The present invention provides regulatable biocircuit systems. Such systems provide modular and tunable protein expression systems in support of the discovery and development of therapeutic modalities.

Non-human animals comprising a human or humanized IL-4 and/or IL-4Rα nucleic acid sequence are provided. Non-human animals that comprise a replacement of the endogenous IL-4 gene and/or IL-4Rα gene with a human IL-4 gene and/or IL-4Rα gene in whole or in part, and methods for making and using the non-human animals, are described. Non-human animals comprising a human or humanized IL-4 gene under control of non-human IL-4 regulatory elements is also provided, including non-human animals that have a replacement of non-human IL-4-encoding sequence with human IL-4-encoding sequence at an endogenous non-human IL-4 locus. Non-human animals comprising a human or humanized IL-4Rα gene under control of non-human IL-4Rα regulatory elements is also provided, including non-human animals that have a replacement of non-human IL-4Rα-encoding sequence with human or humanized IL-4Rα-encoding sequence at an endogenous non-human C IL-4Rα locus. Non-human animals comprising human or humanized IL-4 gene and/or IL-4Rα sequences, wherein the non-human animals are rodents, e.g., mice or rats, are provided.

Disclosed herein, in certain embodiments, are recombinant myxoma viruses (MYXVs) and nucleic acid constructs encoding the recombinant MYXVs. In some embodiments, the MYXVs are engineered to inactivate or attenuate an activity or expression level of an M153 protein. In some embodiments, the MYXVs are engineered to express one or more transgenes such as a tumor necrosis factor (TNF), interleukin-12 (IL-12), or decorin. Also disclosed herein, in certain embodiments, are methods of using the MYXVs. Some embodiments include providing a MYXV as described herein to a subject in need thereof.

It is intended to provide MSCs for transplantation that have an improved post-transplantation cell survival rate and engraftment rate and are highly safe with fewer adverse reactions, and a method for conveniently producing MSCs for transplantation having a high cell survival rate and engraftment rate. As means therefor, the present invention provides a stem cell for transplantation comprising an MSC capable of overexpressing IL-10.

Genetically programmed microorganisms, such as bacteria or virus, pharmaceutical compositions thereof, and methods of modulating and treating cancers are disclosed.

The present invention provides novel viral vectors for use in human therapy, particularly for use in in the treatment of a disease or disorder which has its origin in the brain or is brain based, particularly a PGRN-associated neurodegenerative disease or disorder including frontotemporal degenerative disease or disorder such as Alzheimer's disease, amyotrophic lateral sclerosis, and Parkinson's disease. The invention also provides viral vectors for use in the treatment of brain tumors, particularly brain tumors selected from the group consisting of glioblastoma, glioma, ganglioneuroblastoma, astrocytoma, oligodendroglioma, PNET (primitive neuroectodermal), medulloblastoma, CNS lymphoma, and neuroblastoma, or any other CNS tumor and further in the treatment of brain metastasis, originating from any forms of breast, lung, colon, testicular, renal carcinomas and melanoma, or any other solid tumor, and any hematologic tumor, comprising all forms of leukemia and lymphomas. Further, the viral vectors may be used in the treatment of autoimmune diseases, inflammatory diseases and/or allergic diseases.

Provided are activatable proprotein or procytokine homodimers composed of at least two separate polypeptide chains, each chain comprising a binding moiety such as an Fc region, a cytokine, a cytokine receptor, and at least one a cleavable linker, among other optional features, and related pharmaceutical compositions and methods of use thereof.

The present disclosure relates to a novel platform for immunotherapy which combines CAR engineered γδ T cells with armoring interleukin IL-18 that can be expressed constitutively or inducibly, or with a chimeric cytokine receptor comprising the endodomain of the IL-18 receptor. The system/platform and the associated methods according to the present disclosure have advantages such as increased immune cell potency and persistence for therapeutic applications.

The present disclosure relates to a novel platform for immunotherapy which combines CAR engineered γδ T cells with armoring interleukin IL-18 that can be expressed constitutively or inducibly, or with a chimeric cytokine receptor comprising the endodomain of the IL-18 receptor. The system/platform and the associated methods according to the present disclosure have advantages such as increased immune cell potency and persistence for therapeutic applications.