Abstract: Non-human animal cells and non-human animals comprising a humanized Asgr1 locus and methods of using such non-human animal cells and non-human animals are provided. Non-human animal cells or non-human animals comprising a humanized Asgr1 locus express a human ASGR1 protein or an Asgr1 protein, fragments of which are from human ASGR1. Methods are provided for using such non-human animals comprising a humanized Asgr1 locus to assess in vivo efficacy of human-ASGR1-mediated delivery of therapeutic molecules or therapeutic complexes to the liver and to assess the efficacy of therapeutic molecules or therapeutic complexes acting via human-ASGR1-mediated mechanisms.

Abstract: Non-human animal cells and non-human animals comprising a humanized Asgr1 locus and methods of using such non-human animal cells and non-human animals are provided. Non-human animal cells or non-human animals comprising a humanized Asgr1 locus express a human ASGR1 protein or an Asgr1 protein, fragments of which are from human ASGR1. Methods are provided for using such non-human animals comprising a humanized Asgr1 locus to assess in vivo efficacy of human-ASGR1-mediated delivery of therapeutic molecules or therapeutic complexes to the liver and to assess the efficacy of therapeutic molecules or therapeutic complexes acting via human-ASGR1-mediated mechanisms.

Abstract: The protein known as human epidermal growth factor 2 (HER2) is expressed in breast cancer cells and its expression is correlated with aggressive tumor growth. The present invention provides novel full-length human (IgG) antibodies that bind to human HER2 (monospecific antibodies) or to APLP2 (monospecific antibodies). The present invention also provides novel bispecific antibodies (bsAbs) that bind to both HER2 and APLP2 and mediate internalization and degradation of HER2 via the APLP2 complex in the presence of HER2-expressing tumors. Described are bispecific antigen-binding molecules and ADCs comprising a first antigen-binding domain that specifically binds human APLP2, and a second antigen-binding domain that specifically binds human HER2.

Abstract: The present invention provides pharmaceutical formulations comprising a human antibody that specifically binds to human nerve growth factor (hNGF). The formulations may contain, in addition to an anti-hNGF antibody, at least one non-ionic surfactant, at least one sugar, and acetate. The pharmaceutical formulations of the present invention exhibit a substantial degree of antibody stability after storage for several months.

Abstract: Non-human animal cells and non-human animals comprising a humanized Asgr1 locus and methods of using such non-human animal cells and non-human animals are provided. Non-human animal cells or non-human animals comprising a humanized Asgr1 locus express a human ASGR1 protein or an Asgr1 protein, fragments of which are from human ASGR1. Methods are provided for using such non-human animals comprising a humanized Asgr1 locus to assess in vivo efficacy of human-ASGR1-mediated delivery of therapeutic molecules or therapeutic complexes to the liver and to assess the efficacy of therapeutic molecules or therapeutic complexes acting via human-ASGR1-mediated mechanisms.

Abstract: The present invention provides pharmaceutical formulations comprising a human antibody that specifically binds to human nerve growth factor (hNGF). The formulations may contain, in addition to an anti-hNGF antibody, at least one non-ionic surfactant, at least one sugar, and acetate. The pharmaceutical formulations of the present invention exhibit a substantial degree of antibody stability after storage for several months.

Abstract: The present invention provides pharmaceutical formulations comprising a human antibody that specifically binds to human nerve growth factor (hNGF). The formulations may contain, in addition to an anti-hNGF antibody, at least one non-ionic surfactant, at least one sugar, and acetate. The pharmaceutical formulations of the present invention exhibit a substantial degree of antibody stability after storage for several months.

Abstract: The present invention provides pharmaceutical formulations comprising a human antibody that specifically binds to human nerve growth factor (hNGF). The formulations may contain, in addition to an anti-hNGF antibody, at least one non-ionic surfactant, at least one sugar, and acetate. The pharmaceutical formulations of the present invention exhibit a substantial degree of antibody stability after storage for several months.

Abstract: Disclosed are ?-peptides and ?-peptide conjugates that are capable of diffusing or otherwise being transported across the cell membranes of living cells. The ?-peptides contain at least six ?-amino acid residues, at leastsix of which are preferably ?3-homoarginine residues. It has been found that when pharmacologically-active agents are conjugated to these types of ?-peptides, the resulting conjugates (also disclosed herein) are also capable of diffusing or otherwise being transported across the cell membranes of living cells, including mammalian cells.

Abstract: Disclosed are &bgr;-peptides and &bgr;-peptide conjugates that are capable of diffusing or otherwise being transported across the cell membranes of living cells. The &bgr;-peptides contain at least six &bgr;-amino acid residues, at leastsix of which are preferably &bgr;3-homoarginine residues. It has been found that when pharmacologically-active agents are conjugated to these types of &bgr;-peptides, the resulting conjugates (also disclosed herein) are also capable of diffusing or otherwise being transported across the cell membranes of living cells, including mammalian cells.