A strain of an Apicomplexa of the family Sarcocystidae, wherein the strain is replicative and expresses one or more heterologous protein(s) selected from the group including therapeutic proteins, antigens, recombinant surface receptor or combinations thereof, and wherein the strain is selected from the group including Toxoplasma gondii and Neospora caninium. Also, the use of the strain for preventing or treating cancers or infectious diseases in a subject in need thereof.

The present disclosure relates to extracellular vesicles (EVs), e.g., exosomes, comprising a payload (e.g., an antigen, adjuvant, and/or immune modulator) and/or a targeting moiety. Also provided herein are methods for producing the EVs (e.g., exosomes) and methods for using the EVs (e.g., exosomes) to treat and/or prevent diseases or disorders, e.g., cancer, graft-versus-host disease (GvHD), autoimmune disease, infectious diseases, or fibrotic diseases.

Described herein is an egg yolk extract comprising freed/lysed yolk granules and/or yolk spheres. Also described is an egg yolk extract comprising the liquid contents of a shelled egg, wherein the liquid contents comprise yolk granules. Also described are an egg yolk extract comprising the liquid contents of yolk spheres; an egg yolk extract comprising the liquid contents of yolk granules; an egg yolk extract comprising ovalbumin and other anti-bactericidal proteins in egg white; and an egg yolk extract that supports cell proliferation at least equivalent to FBS when used at the same concentration in a cell culture medium. Related supplements, media, and methods are also described.

In order to further increase antigenicity to provide a DNA vaccine which is clinically usable in humans, the inventors of the present invention focused on exosomes, which are garnering attention as tools for DDS, and discovered that an exosome expressing a fusion antigen of an exosome (extracellular microparticle)-constituent protein and a vaccine antigen has excellent cytotoxic T-cell inducibility. Consequently, the present invention provides a nucleic acid constituent including a nucleic acid sequence coding for an exosome marker protein and a nucleic acid sequence coding for a vaccine antigen.

In order to further increase antigenicity to provide a DNA vaccine which is clinically usable in humans, the inventors of the present invention focused on exosomes, which are garnering attention as tools for DDS, and discovered that an exosome expressing a fusion antigen of an exosome (extracellular microparticle)-constituent protein and a vaccine antigen has excellent cytotoxic T-cell inducibility. Consequently, the present invention provides a nucleic acid constituent including a nucleic acid sequence coding for an exosome marker protein and a nucleic acid sequence coding for a vaccine antigen.

The present disclosure relates to extracellular vesicles (EVs), e.g., exosomes, comprising a payload (e.g., an antigen, adjuvant, and/or immune modulator) and/or a targeting moiety. Also provided herein are methods for producing the EVs (e.g., exosomes) and methods for using the EVs (e.g., exosomes) to treat and/or prevent diseases or disorders, e.g., cancer, graft-versus-host disease (GvHD), autoimmune disease, infectious diseases, or fibrotic diseases.

This application describes transcriptional units, synthetic expression systems, and host cells comprising transcriptional units and synthetic expression systems, wherein the synthetic expression system is capable of expressing a gene of interest. Also described are methods for the production of bioproducts (including, but not limited to, proteins or RNA expressed from the gene of interest). In some embodiments, bioproducts are produced from host cells under culture conditions without addition of methanol.

This application describes transcriptional units, synthetic expression systems, and host cells comprising transcriptional units and synthetic expression systems, wherein the synthetic expression system is capable of expressing a gene of interest. Also described are methods for the production of bioproducts (including, but not limited to, proteins or RNA expressed from the gene of interest). In some embodiments, bioproducts are produced from host cells under culture conditions without addition of methanol.

The invention relates to C. acnes strains carrying DNA vectors for the production of recombinant C. acnes phages. The invention encompasses a C. acnes producer cell carrying DNA vectors, with a template for recombination with C. acnes phage genome leading to the insertion of a gene of interest, for the production of recombinant phages that can lead to the transgene expression into C. acnes infected by the recombinant phage. The invention encompasses, C. acnes strains containing these vectors, C. acnes recombinant phages and methods of using these recombinant phages.

The invention provides compositions and methods for cytosolic delivery of peptides and antigens as well as concomitant delivery of antigens and agonists via poly-norbornene-based protein transduction domain mimics.