Abstract: The invention provides a method for producing polypeptide protein products and nucleic acid products having reduced levels of antigenicity in an animal being treated with a biologic product. Somatic cells are isolated from an animal, transformed into pluripotent stem cells, transfected with a nucleic acid(s) of interest, and re-differentiated towards somatic cells known to be high level producers of the desired nucleic acid product. The invention can be used to derive a general cell line to treat populations, racial specific cell lines to treat ethnic groups, or patient specific cell lines to treat individuals. Additionally, the invention provides a method to allow induced pluripotent stem cells to be re-differentiated towards their somatic cell of origin so that the cells can be used to therapeutically treat an animal without resulting teratoma formation.

Abstract: The present invention relates to zFGF5 compositions and methods of using the compositions to proliferate chondrocytes and their progenitors, and to induce deposition of cartilage. zFGF5 compositions are disclosed for treating disorders associated with chondrocytes, such as cartilage injuries and defects. In addition, methods for treating neurological disorders, such as stroke, are disclosed, and methods for using zFGF5 compositions to stimulate growth of cells associated with neurological injury and disease are disclosed.

Abstract: The present invention relates to methods of using zFGF5 compositions to proliferate chondrocytes and their progenitors, and to induce deposition of cartilage. zFGF5 compositions are disclosed for treating disorders associated with chondrocytes, such as cartilage injuries and defects. In addition, methods for treating neurological disorders, such as stroke, are disclosed, and methods for using zFGF5 compositions to stimulate growth of cells associated with neurological injury and disease are disclosed.

Abstract: The present invention relates to compositions and methods of inhibiting stem cell binding to organs and tissues, including the blocking of stem cell binding to germinal centers present in lymph tissue. Disclosed are compositions and methods for regenerating germinal centers in lymphatic tissue. Included in the compositions are adjuvants, agonists to CD40, CD28 and the IL-21 receptor, and antagonist to CD20.

Abstract: The present invention is directed to polynucleotides, polypeptides and peptide fragments thereof, and uses thereof for a novel cDNA sequence which has homology to motilin. Tissue distribution of the mRNA for the novel polypeptide is specific to the stomach, small intestine and pancreas. The present invention further includes agonists, antagonists, antibodies, host cells expressing the cDNA encoding the novel motilin homologs and methods for increasing gastric motility using the novel molecules.

Abstract: The present invention relates to methods of using zFGF5 compositions to proliferate chondrocytes and their progenitors, and to induce deposition of cartilage. zFGF5 compositions are disclosed for treating disorders associated with chondrocytes, such as cartilage injuries and defects. In addition, methods for treating neurological disorders, such as stroke, are disclosed, and methods for using zFGF5 compositions to stimulate growth of cells associated with neurological injury and disease are disclosed.

Abstract: The present invention relates to methods of using zFGF5 compositions to proliferate chondrocytes and their progenitors, and to induce deposition of cartilage. zFGF5 compositions are disclosed for treating disorders associated with chondrocytes, such as cartilage injuries and defects. In addition, methods for treating neurological disorders, such as stroke, are disclosed, and methods for using zFGF5 compositions to stimulate growth of cells associated with neurological injury and disease are disclosed.

Abstract: The present invention is directed to polynucleotides, polypeptides and peptide fragments thereof, and uses thereof for a novel cDNA sequence which has homology to motilin. Tissue distribution of the mRNA for the novel polypeptide is specific to the stomach, small intestine and pancreas. The present invention further includes agonists, antagonists, antibodies, host cells expressing the cDNA encoding the novel motilin homologs and methods for increasing gastric motility using the novel molecules.

Abstract: The present invention relates to antibodies and fragments thereof, polynucleotide and polypeptide molecules for zFGF5 a novel member of the FGF family. The polypeptides, and polynucleotides encoding them, are proliferative for muscle cells, in particular cardiac cells and may be used for remodeling cardiac tissue and improving cardiac function. The present invention also includes antibodies to the zFGF5 polypeptides.

Abstract: The present invention relates to polynucleotide and polypeptide molecules for zFGF5 a novel member of the FGF family. The polypeptides, and polynucleotides encoding them, are proliferative for muscle cells, in particular cardiac cells and may be used for remodeling cardiac tissue and improving cardiac function. The present invention also includes antibodies to the zFGF5 polypeptides.

Abstract: The present invention is directed to polynucleotides, peptides, variants, and uses thereof for a novel peptide fragment designated TML peptides. Binding of the peptide fragment has been shown in kidney and small intestine. The present invention further includes agonists, antagonists, variants, antibodies, host cells expressing the cDNA encoding the novel TML peptides and methods for increasing gastric motility and secretion of digestive proteins and hormones using the novel TML peptides.

Abstract: The present invention is directed to polynucleotides, peptides, variants, and uses thereof for a novel peptide fragment designated TML peptides. Binding of the peptide fragment has been shown in kidney and small intestine. The present invention further includes agonists, antagonists, variants, antibodies, host cells expressing the cDNA encoding the novel TML peptides and methods for increasing gastric motility and secretion of digestive proteins and hormones using the novel TML peptides.

Abstract: The present invention relates to polynucleotide and polypeptide molecules for zFGF-5 a novel member of the FGF family. The polypeptides, and polynucleotides encoding them, are proliferative for muscle cells and may be used for remodelling cardiac tissue and improving cardiac function. The present invention also includes antibodies to the zFGF-5 polypeptides.

Abstract: The present invention relates to methods of using zFGF5 compositions to proliferate chondrocytes and their progenitors, and to induce deposition of cartilage. zFGF5 compositions are disclosed for treating disorders associated with chondrocytes, such as cartilage injuries and defects. In addition, methods for treating neurological disorders, such as stroke, are disclosed, and methods for using zFGF5 compositions to stimulate growth of cells associated with neurological injury and disease are disclosed.

Abstract: The present invention relates to methods of using zFGF5 compositions to proliferate chondrocytes and their progenitors, and to induce deposition of cartilage. zFGF5 compositions are disclosed for treating disorders associated with chondrocytes, such as cartilage injuries and defects. In addition, methods for treating neurological disorders, such as stroke, are disclosed, and methods for using zFGF5 compositions to stimulate growth of cells associated with neurological injury and disease are disclosed.

Abstract: The present invention relates to human polynucleotide and polypeptide molecules for zdint1, a novel member of the Disintegrin Proteases. The polypeptides, and polynucleotides encoding them, are believed to be cell-cell interaction modulating and may be used for delivery and therapeutics. The present invention also includes antibodies to the zdint1 polypeptides.

Abstract: The present invention relates to polynucleotide and polypeptide molecules for zdint1, a novel member of the Disintegrin Proteases. The polypeptides, and polynucleotides encoding them, are believed to be cell-cell interaction modulating and may be used for delivery and therapeutics. The present invention also includes antibodies to the zdint1 polypeptides.

Abstract: The present invention is directed to polynucleotides, polypeptides, peptides, variants and uses thereof for novel peptide fragments which have homology to motilin. Tissue distribution of the mRNA for the novel polypeptide fragment is specific to the stomach, small intestine and pancreas. Binding of the peptide fragment has been shown in kidney and small intestine. The present invention further includes agonists, antagonists, variants, antibodies and host cells expressing the cDNA encoding the novel SGIP peptide.

Abstract: The present invention is directed to polynucleotides, polypeptides and peptide fragments thereof, and uses thereof for a novel cDNA sequence which has homology to motilin. Tissue distribution of the mRNA for the novel polypeptide is specific to the stomach, small intestine and pancreas. The present invention further includes agonists, antagonists, antibodies, host cells expressing the cDNA encoding the novel motilin homologs and methods for increasing gastric motility using the novel molecules.

Abstract: The present invention relates to methods of using granulocyte colony stimulating factor (G-CSF) polypeptide, alone and in conjunction with stromal cell derived factor (SDF-1) polypeptide, to increase the mobilization of c-Kit+ stem cells in the blood, bone marrow, tissue, heart or other organs for the subsequent production of embryoid body-like cell clusters. These embryoid body-like cell clusters can be used for cell replacement therapy, for the treatment of cardiac myopathy and other diseases and disorders, and for screening agents that drive or inhibit differentiation and proliferation.