A method for alleviating arthritis includes administering to a subject in need thereof a postbiotic extract. The postbiotic extract is prepared by a process including the steps of providing a first material having a first isoelectric point ranging from pH 1 to pH 6 and a second material having a second isoelectric point ranging from pH 4 to pH 8, admixing the first material and a probiotic microorganism with water having a pH greater than the second isoelectric point, so as to forma mixture, adding the second material into the mixture and then adjusting a pH of the second material-added mixture to between the first and second isoelectric points so that a precipitate is formed, and subjecting the precipitate to a cell wall isolation treatment to obtain the postbiotic extract.

Strains of human-derived bacteria have been obtained from complex fecal samples and shown to induce accumulation of Th17 cells in the intestine and promote immune functions. Pharmaceutical compositions containing these bacteria can be used as anti-infectives and as adjuvants in mucosal vaccines.

Nucleic acid constructs for heterologous expression of a SARS-CoV-2 antigen on the surface of a yeast cell and related polypeptides, recombinant yeast cells, vaccine compositions, oral dosage formulations, and methods of inducing antigen-specific immune response to SARS-CoV-2.

Nucleic acid constructs for heterologous expression of a SARS-CoV-2 antigen on the surface of a yeast cell and related polypeptides, recombinant yeast cells, vaccine compositions, oral dosage formulations, and methods of inducing antigen-specific immune response to SARS-CoV-2.

The present invention relates to a probiotic cell transformed with a construct suitable to overexpress and display on the surface of the probiotic cell a fusion protein comprising at least a portion of a transport protein coupled to at least a portion of one or more antigenic proteins or peptides. Probiotic-derived vesicles displaying this fusion protein as well as methods of inducing an immune response using the probiotic cells or vesicles are also disclosed.

The present invention is directed to a method of treating poultry hatchlings in a hatchling tray. The method comprises of providing a soft gel form capable of being dispensed through a spray nozzle, providing a spray dispensing apparatus, the apparatus being capable of delivering a predetermined volume of the gel as a plurality of small beadlets through a plurality of nozzles, placing the hatchling tray containing the hatchlings beneath the nozzles of the dispensing apparatus, dispensing the predetermined volume of the soft gel containing the therapeutic agent as small beadlets into the hatchling tray and allowing the hatchlings to consume the beadlets. The present invention is also directed to a dispensing apparatus for dispensing a therapeutic agent in a soft gel into a hatchling tray of poultry hatchlings.

In one aspect, the present disclosure provides a trapping vaccine composition comprising a trapping antigenic component, a protective component, and a liver cell-targeting component, wherein the trapping antigenic component comprises a nucleic acid molecule or a protein, the protective component comprises a synthetic or non-natural molecule or formation of synthetic or non-natural molecules, and wherein the liver cell-targeting component is capable of delivering the vaccine composition to a liver cell or liver tissue. The present disclosure additional provides vaccination methods comprising (i) administering a priming composition comprising a priming antigenic component or a first dose comprising the priming composition to the mammal; and (ii) administering a trapping composition comprising a trapping antigenic component, a protective component, and a liver cell-targeting component, or a second dose comprising the second composition to the mammal, wherein the priming and trapping compositions or doses are not administered concurrently and wherein the number of resident memory T cells in the liver are increased following administration of the trapping composition. In certain embodiments, vaccine compositions and regimes are provided that protect against liver-tropic pathogens, e.g., a malarial infection. In an embodiment, a vaccine composition and regimen are provided that protect against an infection caused by P. falciparum or P. yoelli sporozoites.

Disclosed herein is a bi-specific antibody that specifically directs a therapeutic agent to a cancer cell by targeting a tumor antigen of the cancer cell, and thereby suppressing the growth of the cancer or blocking the invasion or metastasis of the cancer. The bi-specific antibody of the present disclosure includes a first antigen binding site that binds to polyethylene glycol (PEG); and a second antigen binding site that binds to a target ligand, such as a tumor antigen.

The present invention relates to a composition for use in the treatment of an intestinal tract disorder caused by a gluten-associated protein, said composition comprising at least one agent which binds to the gluten-associated protein, characterized in that the composition is administered at the same time as or at most within 60 minutes after administration of at least one tannin to a patient.

Disclosed herein is a bi-specific antibody that specifically directs a therapeutic agent to a cancer cell by targeting a tumor antigen of the cancer cell, and thereby suppressing the growth of the cancer or blocking the invasion or metastasis of the cancer. The bi-specific antibody of the present disclosure includes a first antigen binding site that binds to polyethylene glycol (PEG); and a second antigen binding site that binds to a target ligand, such as a tumor antigen.