The presently-disclosed subject matter relates to antibodies, compositions, and methods for inhibiting and treating virus infection in the respiratory tract and virus transmission through the respiratory tract. In particular, the presently-disclosed subject matter relates to inhibiting and treating virus infection in a subject using compositions and antibodies that trap viruses in mucus of the respiratory tract, thereby inhibiting transport of virus across or through mucus secretions.

The invention provides recombinant organisms containing a nucleic acid encoding a heterologous glycomolecule that has a low sulfation profile or that is unsulfated. In one embodiment the heterologous glycomolecule is an immunoglobulin molecule. The recombinant organisms have a genetic modification to at least one sulfotransferase gene, such as a deletion, disruption, or other genetic modification. The cells advantageously produce and, optionally secrete, the heterologous glycomolecule. Thus, the invention provides recombinant organisms that provide glycomolecules having a glycosylation profile that is more similar to the glycosylation profile produced in a mammalian cell, and therefore may be safer and more effective for use as a therapeutic in humans or animals. The glycomolecules can be a glycoprotein, glycopeptide, or a glycolipid.

The present invention provides antibodies that neutralize MERS-CoV and methods of use thereof. The invented antibody is used to treat MERS-CoV infections and symptoms thereof.

A plant or plant cell with reduced endogenous AGO1 and AGO4 expression compared to a wild-type plant or plant cell is provided. In one embodiment, the plant or plant cell further comprises a nucleic acid sequence encoding a recombinant protein and the plant or plant cell has increased expression of the recombinant protein compared to a wild-type plant or plant cell comprising the nucleic acid sequence. Methods of reducing aglycosylation of recombinant protein produced in plants are also provided.

This disclosure relates to an antibody that can protect against ETEC infection in a passive immunization set up. More specifically, it relates to a VHH grafted on an IgA scaffold and produced in plant seeds. When the seeds are given in food or feed, the subject is protected against ETEC infection.

The transgenic plants expressing one or more antagonist IL-10R peptides and anti-IL-10 single domain antibodies that stimulate or modulate the immune system and improve gastrointestinal physiology of an animal fed the transgenic plants or tissues thereof and the genes encoding the antagonist IL-10R peptides and anti-IL-10 single domain antibodies are described. The animal feed additives and animal feed incorporating the transgenic plants or tissues thereof are also described. Methods of stimulating or modulating an animal's immune system, improving an animal's gastrointestinal physiology, improving animal performance by using the transgenic plants or tissues thereof, and treating animals infected with a gastrointestinal pathogen are provided.

A method of modifying a glycosylation pattern of a polypeptide-of-interest in a plant or plant cell is provided. The method comprising expressing in a plant or plant cell transformed to express at least one glycosidase in a subcellular compartment, a nucleic acid sequence encoding the polypeptide-of-interest, such that the at least one glycosidase and the polypeptide-of-interest are co-localized to the subcellular compartment of the plant or plant cell, thereby modifying the glycosylation pattern of the polypeptide-of-interest in the plant or plant cell.

The treatment of growth factor receptor-mediated cancers, such as epidermal growth factor receptor- (EGFR-) and/or insulin-like growth factor 1 receptor- (IGF1R-) mediated cancers, e.g., lung cancer such as non-small cell lung cancer, which is sensitive to polypeptides specifically binds a high-mannose-type glycan epitope, is described. Methods for reducing activation of EGFR and/or IGF1R in cancer cells, inhibiting cancer cell migration, treatment of cancer and/or reduction of tumor growth in subjects (e.g., human patients) are provided.

The transgenic plants expressing one or more antagonist IL-10R peptides and anti-IL-10 single domain antibodies that stimulate or modulate the immune system and improve gastrointestinal physiology of an animal fed the transgenic plants or tissues thereof and the genes encoding the antagonist IL-10R peptides and anti-IL-10 single domain antibodies are described. The animal feed additives and animal feed incorporating the transgenic plants or tissues thereof are also described. Methods of stimulating or modulating an animal's immune system, improving an animal's gastrointestinal physiology, improving animal performance by using the transgenic plants or tissues thereof, and treating animals infected with a gastrointestinal pathogen are provided.

The presently-disclosed subject matter relates to antibodies, compositions, and methods for inhibiting and treating virus infection in the respiratory tract and virus transmission through the respiratory tract. In particular, the presently-disclosed subject matter relates to inhibiting and treating virus infection in a subject using compositions and antibodies that trap viruses in mucus of the respiratory tract, thereby inhibiting transport of virus across or through mucus secretions.