The present invention relates to methods of and compositions comprising cytokines for, improving the success rate of embryo implantation and the success rate of pregnancy rates in females, by providing an immunopermissive uterine environment prior to insemination or implantation of embryos. The methods of the present invention are used to make the uterus more receptive or less hostile to, for example, transferred embryos, sperm or other allografted tissue.

The present invention refers to a combination of growth factors, cytokines, antibacterial/antiviral factors, stem cell stimulating factors, complement proteins C3a/C4a, immunoglobulins and chemotactic factors. The invention also relates to a process for the preparation of said combination from serum, placenta or colostrum and to composition containing said combination for use in the treatment of conditions requiring tissue repair and regeneration and for the substitution of stem cell therapies.

A composition for influencing biological growth including live cells, a fluid comprising dextrose, a protectant, and a first cytokine having a first concentration within the composition as described within the present disclosure.

Embodiments relate to peptide antagonists of ?c-family cytokines, which is associated with important human diseases, such as leukemia, autoimmune diseases, collagen diseases, diabetes mellitus, skin diseases, degenerative neuronal diseases and graft-versus-host disease (GvHD). Thus, inhibitors of ?c-cytokine activity are valuable therapeutic and cosmetic agents as well as research tools. Traditional approaches to inhibiting ?c-cytokine activity involve raising neutralizing antibodies against each individual ?c-cytokine family member/receptor subunit. However, success has been limited and often multiple ?c-cytokine family members co-operate to cause the disease state. Combinatorial use of neutralizing antibodies raised against each factor is impractical and poses an increased risk of adverse immune reactions. The present embodiments overcome these shortcomings by utilizing peptide antagonists based on the consensus ?c-subunit binding site to inhibit ?c-cytokine activity. Such approach allows for flexibility in antagonist design. In several embodiments, peptides exhibit Simul-Block activity, inhibiting the activity of multiple ?c-cytokine family members.

Peptide antagonists of ?c-family cytokines, which is associated with important human diseases, such as leukemia, autoimmune diseases, collagen diseases, diabetes mellitus, skin diseases, degenerative neuronal diseases and graft-versus-host disease (GvHD). Thus, inhibitors of ?c-cytokine activity are valuable therapeutic and cosmetic agents as well as research tools. Traditional approaches to inhibiting ?c-cytokine activity involve raising neutralizing antibodies against each individual ?c-cytokine family member/receptor subunit. However, success has been limited and often multiple ?c-cytokine family members co-operate to cause the disease state. Combinatorial use of neutralizing antibodies raised against each factor is impractical and poses an increased risk of adverse immune reactions. The present embodiments overcome these shortcomings by utilizing peptide antagonists based on the consensus ?c-subunit binding site to inhibit ?c-cytokine activity. Such approach allows for flexibility in antagonist design. The disclosed peptides exhibit Simul-Block activity, inhibiting the activity of multiple ?c-cytokine family members.

Peptide antagonists of c-family cytokines, which is associated with important human diseases, such as leukemia, autoimmune diseases, collagen diseases, diabetes mellitus, skin diseases, degenerative neuronal diseases and graft-versus-host disease (GvHD). Thus, inhibitors of c-cytokine activity are valuable therapeutic and cosmetic agents as well as research tools. Traditional approaches to inhibiting c-cytokine activity involve raising neutralizing antibodies against each individual c-cytokine family member/receptor subunit. However, success has been limited and often multiple c-cytokine family members co-operate to cause the disease state. Combinatorial use of neutralizing antibodies raised against each factor is impractical and poses an increased risk of adverse immune reactions. The present embodiments overcome these shortcomings by utilizing peptide antagonists based on the consensus c-subunit binding site to inhibit c-cytokine activity. Such approach allows for flexibility in antagonist design. The disclosed peptides exhibit Simul-Block activity, inhibiting the activity of multiple c-cytokine family members.

Described herein are methods for the treatment of cancer (e.g. melanoma, lung cancer, or other cancers). The methods involve administrating to a subject in need thereof an agonist of the IL-9 receptor (e.g. IL-9), e.g. an agent that binds and activates the IL-9 receptor, or an agent that increases IL-9 expression in the subject (e.g. administration of TH9 cells that express IL-9, or administration of an inhibitor of ROR).

Embodiments relate to peptide antagonists of c-family cytokines, which is associated with important human diseases, such as leukemia, autoimmune diseases, collagen diseases, diabetes mellitus, skin diseases, degenerative neuronal diseases and graft-versus-host disease (GvHD). Thus, inhibitors of c-cytokine activity are valuable therapeutic and cosmetic agents as well as research tools. Traditional approaches to inhibiting c-cytokine activity involve raising neutralizing antibodies against each individual c-cytokine family member/receptor subunit. However, success has been limited and often multiple c-cytokine family members co-operate to cause the disease state. Combinatorial use of neutralizing antibodies raised against each factor is impractical and poses an increased risk of adverse immune reactions. The present embodiments overcome these shortcomings by utilizing peptide antagonists based on the consensus c-subunit binding site to inhibit c-cytokine activity. Such approach allows for flexibility in antagonist design. In several embodiments, peptides exhibit Simul-Block activity, inhibiting the activity of multiple c-cytokine family members.

The present invention refers to a combination of growth factors, cytokines, antibacterial/antiviral factors, stem cell stimulating factors, complement proteins C3a/C4a, immunoglobulins and chemotactic factors. The invention also relates to a process for the preparation of said combination from serum, placenta or colostrum and to composition containing said combination for use in the treatment of conditions requiring tissue repair and regeneration and for the substitution of stem cell therapies.

The present invention refers to a combination of growth factors, cytokines, antibacterial/antiviral factors, stem cell stimulating factors, complement proteins C3a/C4a, immunoglobulins and chemotactic factors. The invention also relates to a process for the preparation of said combination from serum, placenta or colostrum and to composition containing said combination for use in the treatment of conditions requiring tissue repair and regeneration and for the substitution of stem cell therapies.