Abstract: The disclosure provides a method for preparing exosomes using: (i) a step for ultrafiltering a sample containing at least one exosome; and (ii) a step for subjecting the sample that can be obtained from step (i) to anion exchange column chromatography.

Abstract: An antigen-loaded nanogel is formed by loading or encapsulating one or more long peptide antigens or one or more protein antigens in a hydrophobized polysaccharide. The long peptide antigen(s) or protein antigen(s) contains (or each contain) one or more CD8+ cytotoxic T cell recognition epitopes and/or one or more CD4+ helper T cell recognition epitopes, which is/are derived from the antigen. The antigen-loaded nanogel is administered at least one day prior to administration of antigen-specific T cells to improve the efficacy of a T cell infusion therapy against an immune checkpoint inhibitor-resistant tumor. The hydrophobized polysaccharide may be pullulan having cholesteryl groups bound thereto. An immune-enhancing agent also may be administered in or with the antigen-loaded nanogel.

Abstract: The present invention provides a vaccine formulation for use in the prevention and/or treatment of a cancer, comprising a complex of a hyaluronic acid derivative having an introduced hydrophobic group, and an antigen.

Abstract: An object is to provide a technique of forming CpG oligonucleotides and hydrophobized polysaccharides into complexes. This object is achieved by a complex comprising a modified CpG oligonucleotide containing a hydrophobic group A having a sterol skeleton, and a modified polysaccharide containing a hydrophobic group B.

Abstract: A long-chain peptide antigen includes a plurality of epitopes. An interepitope sequence located between two of the plurality of epitopes contains four to ten consecutive tyrosines, threonines, alanines, histidines, glutamines, or asparagines. The killer T-cell recognition epitopes form complexes with MHC class I molecules and are recognized by CD8+ killer T-cells when the complexes are presented on the surfaces of antigen-presenting cells. The helper T-cell recognition epitopes form complexes with MHC class II molecules and are recognized by CD4+ helper T-cells when the complexes are presented on the surfaces of antigen-presenting cells. The peptide is cleaved within the first interepitope sequence upon uptake of the peptide into antigen-presenting cells. The long-chain peptide antigen may be administered to a patient together with a hydrophobized polysaccharide, such as cholesterol-modified pullulan, and/or an adjuvant, such as CpG oligo DNA.

Abstract: A long-chain peptide antigen includes a plurality of epitopes. An interepitope sequence located between two of the plurality of epitopes contains four to ten consecutive tyrosines. The long-chain peptide antigen may be administered to a patient together with a hydrophobized polysaccharide, such as cholesterol-modified pullulan, and/or an adjuvant, such as CpG oligo DNA.

Abstract: A mucosal vaccine composition for preventing bovine mastitis, comprising: an antigen derived from Staphylococcus aureus; and a nanogel comprising a polysaccharide having a cationic functional group and a hydrophobic functional group in side chains. By administering the composition to cattle, it is possible to enhance the titer of an antibody against Staphylococcus aureus immediately after the contact with the bacteria in the udder, and prevent the bovine mastitis.

Abstract: Therapeutic agents effective for treating cell-proliferative diseases contain extracellular vesicles (exosomes) released from cytotoxic T cells or miRNA obtained from extracellular vesicles (exosomes) released from cytotoxic T cells, such as human CD8+ T cells. Such therapeutic agents suppress the proliferation of mesenchymal cells surrounding cancer cells, e.g., by killing the mesenchymal cells, such that the cancer cells become isolated and unable to metastasize. Cell-proliferative diseases are thus treatable by administering such a therapeutic agent to a patient.

Abstract: The present invention aims to provide a method for preparing exosomes comprising: (i) a step for ultrafiltering a sample containing at least one exosome; and (ii) a step for subjecting the sample that can be obtained from step (i) to anion exchange column chromatography.

Abstract: An antigen-loaded nanogel is formed by loading or encapsulating one or more long peptide antigens or one or more protein antigens in a hydrophobized polysaccharide. The long peptide antigen(s) or protein antigen(s) contains (or each contain) one or more CD8+ cytotoxic T cell recognition epitopes and/or one or more CD4+ helper T cell recognition epitopes, which is/are derived from the antigen. The antigen-loaded nanogel may be administered prior to administration of antigen-specific T cells to improve the efficacy of a T cell infusion therapy against an immune checkpoint inhibitor-resistant tumor. The hydrophobized polysaccharide may be pullulan having cholesteryl groups bound thereto. An immune-enhancing agent also may be administered in or with the antigen-loaded nanogel.

Abstract: A long-chain peptide antigen includes a plurality of epitopes. An interepitope sequence located between two of the plurality of epitopes contains four to ten consecutive tyrosines. The long-chain peptide antigen may be administered to a patient together with a hydrophobized polysaccharide, such as cholesterol-modified pullulan, and/or an adjuvant, such as CpG oligo DNA.

Abstract: Therapeutic agents effective for treating cell-proliferative diseases contain extracellular vesicles (exosomes) released from cytotoxic T cells or miRNA obtained from extracellular vesicles (exosomes) released from cytotoxic T cells, such as human CD8+ T cells. Such therapeutic agents suppress the proliferation of mesenchymal cells surrounding cancer cells, e.g., by killing the mesenchymal cells, such that the cancer cells become isolated and unable to metastasize. Cell-proliferative diseases are thus treatable by administering such a therapeutic agent to a patient.

Abstract: The present invention provides a nasal vaccine for Streptococcus pneumoniae, and a production method therefor. This nasal vaccine formulation for primates includes a complex of PspA, i.e. the vaccine antigen, and a nanogel in which hydrophobic cholesterol is added, as side chains, to pullulan having amino groups. Furthermore, the present invention provides a production method for the nasal vaccine formulation for primates.

Abstract: The present invention provides a nasal vaccine for Streptococcus pneumoniae, and a production method therefor. This nasal vaccine formulation for primates includes a complex of PspA, i.e. the vaccine antigen, and a nanogel in which hydrophobic cholesterol is added, as side chains, to pullulan having amino groups. Furthermore, the present invention provides a production method for the nasal vaccine formulation for primates.

Abstract: A vaccine contains a long-chain peptide antigen having a plurality of epitopes. An interepitope sequence located between two of the plurality of epitopes contains two to ten consecutive tyrosines, two to ten consecutive threonines, two to ten consecutive alanines, two to ten consecutive histidines, two to ten consecutive glutamines or two to ten consecutive asparagines. The vaccine may be an anticancer vaccine, an antibacterial vaccine or an antiviral vaccine. The vaccine may be a peptide vaccine, a DNA vaccine, an mRNA vaccine or a dendritic cell vaccine.

Abstract: It is intended to efficiently inject into a target cell, a substance charged within a liposome. The present inventors have found that connexin synthesized within a liposome is introduced as connexon having a gap junction function into the liposome membrane. Specifically, the liposome according to the present invention is a liposome in which connexon composed of connexin synthesized by an in-vitro protein synthesis system is incorporated in a state of having a gap junction function.

Abstract: The present invention provides a composition comprising a hyaluronic acid derivative having a crosslinking group(s) and a hydrophilic polysaccharide derivative having a hydrophobic group(s), wherein the hyaluronic acid derivative having a crosslinking group(s) is prepared by crosslinkage formation reaction in hyaluronic acid or a derivative thereof having a crosslinkable group(s) in the presence of the hydrophilic polysaccharide derivative wherein the hydrophilic polysaccharide derivative may have a crosslinkable group(s).

Abstract: A mucosal vaccine for the prevention or treatment of microbial infections is described that is capable of inducing vaccine antigen-specific immune responses in an organism without the addition of a mucosal adjuvant. The mucosal vaccine comprises a composite of a nanogel comprising a hydrophilic polysaccharide having a cationic functional group and a hydrophobic cholesterol added thereto as a side chain and a vaccine antigen. The vaccine is administered via a mucosal route.

Abstract: A mucosal vaccine for the prevention or treatment of microbial infections is described that is capable of inducing vaccine antigen-specific immune responses in an organism without the addition of a mucosal adjuvant. The mucosal vaccine comprises a composite of a nanogel comprising a hydrophilic polysaccharide having a cationic functional group and a hydrophobic cholesterol added thereto as a side chain and a vaccine antigen. The vaccine is administered via a mucosal route.

Abstract: A vaccine preparation for treating cancer includes a complex of a hydrophobized polysaccharide and at least one synthetic long peptide derived from a tumor-specific antigenic protein and/or a pathogen-derived antigenic protein. The at least one synthetic long peptide contains at least one CD8+ cytotoxic T-cell recognition epitope and at least one CD4+ helper T-cell recognition epitope. The complex is simultaneously administered to the patient with at least one immunopotentiating agent.