The present disclosure relates to compositions and methods of enhancing expansion of a population of cells targeting a solid tumor and/or enhancing treatment on the solid tumor using the population of cells. For example, the method comprises administering an effective amount of a composition comprising a first population of cells targeting a WBC antigen and a second population of cells targeting the solid tumor to a subject having the solid tumor; and allowing the second population of cells to expand, wherein there are at least as many or more of the second population of cells targeting the solid tumor than the first population of cells targeting the WBC antigen.

The present disclosure describes the use of immune modulators to promote nerve growth and regeneration, particularly in the context of nerve deficit stemming from trauma and disease. In particular, the disclosure provides for the use of of CXCR4 antagonsists, STAT3 activators, and an agent that increase nitric oxide, alone or in combination, to treat nerve deficit conditions.

The present disclosure describes the use of immune modulators to promote nerve growth and regeneration, particularly in the context of nerve deficit stemming from trauma and disease. In particular, the disclosure provides for the use of of CXCR4 antagonsists, STAT3 activators, and an agent that increase nitric oxide, alone or in combination, to treat nerve deficit conditions.

The present disclosure relates to compositions and methods for enhancing T cell response and/or CAR cell expansion and/or maintenance in vivo and/or in vitro. For example, a method of enhancing T cell-based therapy comprises administering genetically modified T cells comprising a first chimeric antigen receptor (CAR) and a second CAR, wherein a binding domain of the first CAR binds a first antigen, and a binding domain of the second CAR binds a second antigen. The first antigen is different from the second antigen. In embodiments, the first CAR binds a surface molecule or antigen of a white blood cell.

Provided herein are polymeric particles and compositions (i.e., backpacks) that can adhere to cells and provide delivery of payload immunomodulatory agents to those cells. For examples, the particles can adhere to macrophages and/or monocytes and release cytokines that promote an M1 or M2 phenotype to improve therapeutic efficacy of the cells.

Provided herein are polymeric particles and compositions (i.e., backpacks) that can adhere to cells and provide delivery of payload immunomodulatory agents to those cells. For examples, the particles can adhere to macrophages and/or monocytes and release cytokines that promote an M1 or M2 phenotype to improve therapeutic efficacy of the cells.

A targeted therapeutic including a lysosomal enzyme and a lysosomal targeting moiety that is a peptide containing at least one N-linked glycosylation site. Methods of producing the targeted therapeutic may include nucleotide acids encoding the same and host cells co-expressing GNPT. Pharmaceutical compositions comprising the targeted therapeutic and methods of using the same to treat a lysosomal storage disease.

There are provided compositions and methods for treatment of neurodegeneative diseases and CNS injury. The compositions a pharmaceutically acceptable carrier solution; and a plurality of biodegradable nanoparticles, wherein the nanoparticles comprise a targeting moiety that is able to bind selectively to the surface of a neural stem cell and wherein the nanoparticles further comprise factors such as leukaemia inhibitory factor (LIF); XAV939 and/or one or more of: brain-derived neurotrophic factor (BDNF) or an agonist thereof; epidermal growth factor (EGF) or an agonist thereof; glial cell-derived neurotrophic factor (GDNF) or an agonist thereof; retinoic acid and derivatives thereof; ciliary neurotrophic factor (CTNF) or an agonist thereof; and Wnt5A. The biodegradable nanoparticles may deliver via controlled time release.

Disclosed herein are precursory regulatory cytotrophoblast cells produced in vitro and compositions thereof. Also disclosed herein are methods of treating a disorder or condition by utilizing the cells disclosed herein.

Disclosed herein are precursory regulatory cytotrophoblast cells produced in vitro and compositions thereof. Also disclosed herein are methods of treating a disorder or condition by utilizing the cells disclosed herein.