A therapeutic composition of camel milk can include an herbal composition having solid material or liquid extracts from the solid material of at least one of Saussurea acrophila Diels, Saussurea ceratocarpa, and Aucklandia lappa Decne. The solid material may include one or more of parts or the whole of the stem, the bark, the flowers and the roots of one or more, but preferably all of Saussurea acrophila Diels, Saussurea ceratocarpa, and Aucklandia lappa Decne. The therapeutic composition can include camel milk, alone, or in combination with the herbal composition. The camel milk can be HIV-immunized camel milk. The HIV-immunized camel milk can be obtained by immunizing a camel against HIV by administering to the camel the modified DNA plasmids of SEQ. ID No.: 3 and SEQ ID No.: 4 and obtaining the milk from the immunized camel.

This invention relates to the therapeutic and prophylactic use of a combination including lactoperoxidase and at least one other component, with an isoelectric point of, or substantially above 6.8, and which are extracted from milk, to modulate the microbiome of an animal by selectively against at least one pathogenic microoganism.

This invention relates to the therapeutic and prophylactic use of a combination including lactoperoxidase and at least one other component, with an isoelectric point of, or substantially above 6.8, and which are extracted from milk, to modulate the microbiome of an animal by selectively against at least one pathogenic microoganism.

This invention relates to the therapeutic and prophylactic use of a combination including lactoperoxidase and at least one other component, with an isoelectric point of, or substantially above 6.8, and which are extracted from milk, to modulate the microbiome of an animal by selectively against at least one pathogenic microoganism.

In one aspect, the disclosure relates to highly galactosylated anti-TNF-alpha antibodies and compositions thereof. In one aspect, the disclosure relates to populations of anti-TNF-alpha antibodies with a high level of galactosylation, and compositions thereof. In one aspect, the disclosure relates to methods of production and use of highly galactosylated anti-TNF-alpha antibodies and populations of anti-TNF-alpha antibodies with a high level of galactosylation. In some embodiments, the anti-TNF-alpha antibody is adalimumab.

In one aspect, the disclosure relates to highly galactosylated anti-TNF-alpha antibodies and compositions thereof. In one aspect, the disclosure relates to populations of anti-TNF-alpha antibodies with a high level of galactosylation, and compositions thereof. In one aspect, the disclosure relates to methods of production and use of highly galactosylated anti-TNF-alpha antibodies and populations of anti-TNF-alpha antibodies with a high level of galactosylation. In some embodiments, the anti-TNF-alpha antibody is adalimumab.

The present invention relates to methods and compositions for the treatment and/or prophylaxis of Clostridium difficile associated disease (CD AD). In particular, the invention relates to antibodies that bind to C. difficile antigens and are capable of inhibiting C. difficile infection, at least one symptom of C. difficile associated disease, shedding of C. difficile, and C. difficile associated mortality. The compositions of the present application comprise: mammalian or avian antibodies which bind to a C. difficile Toxin B; and mammalian or avian antibodies that bind to a C. difficile vegetative cell antigen and/or a C. difficile endospore antigen.

A method to produce immunoglobulin preparations against viral infection in humans spreading via respiratory route is provided. The method comprises the steps of immunizing dairy cows during a third trimester of at least a first gestation period with antigen proteins derived from at least one virus strain, collecting hyperimmune bovine colostrum comprising immunoglobulins effective against the antigen protein of various strains of the virus, preparing whey from the colostrum, isolating the immunoglobulin molecules from the whey, and preparing an immunoglobulin preparation for use as an intranasal treatment. One aspect of the invention is to produce SARS-CoV-2 spike protein specific hyperimmune bovine colostrum comprising a high concentration of anti-SARS-CoV-2 antibodies. An intranasal delivery system for diminishing risk of SARS-CoV-2 infections in humans is provided.

The invention provides a method of producing an immune complex preparation based on a secretory immunoglobulin, which is non-human secretion derived, comprising providing an industrial scale production system, capable of producing an N-glycosylated Secretory Component, producing by such system a Secretory Component comprising at least 0.01 mol non-core fucose per mol Secretory Component, and combining said Secretory Component with at least one of IgA or IgM immunoglobulins having a native glycosylation pattern to obtain an immune complex. The invention provides an isolated recombinant Secretory Component comprising the amino acid sequence of SEQ ID 1, or a functionally active variant thereof, which has a Lewis-type N-glucosylation pattern and at least 2 mol non-core fucose per mol Secretory Component; and an immune complex preparation based on a secretory immunoglobulin, derived from sources other than human secretions, comprising a Secretory Component with a Lewis-type N-glucosylation pattern and at least 0.01 mol non-core fucose per mol Secretory Component, and at least one of IgA or IgM immunoglobulins having a native glycosylation pattern.

The invention provides a method of producing an immune complex preparation based on a secretory immunoglobulin, which is non-human secretion derived, comprising providing an industrial scale production system, capable of producing an N-glycosylated Secretory Component, producing by such system a Secretory Component comprising at least 0.01 mol non-core fucose per mol Secretory Component, and combining said Secretory Component with at least one of IgA or IgM immunoglobulins having a native glycosylation pattern to obtain an immune complex. The invention provides an isolated recombinant Secretory Component comprising the amino acid sequence of SEQ ID 1, or a functionally active variant thereof, which has a Lewis-type N-glucosylation pattern and at least 2 mol non-core fucose per mol Secretory Component; and an immune complex preparation based on a secretory immunoglobulin, derived from sources other than human secretions, comprising a Secretory Component with a Lewis-type N-glucosylation pattern and at least 0.01 mol non-core fucose per mol Secretory Component, and at least one of IgA or IgM immunoglobulins having a native glycosylation pattern.