Binding molecules to IL-17A. The binding molecules are useful in the treatment of disorders, for example psoriasis.

The invention discloses methods for the generation of chimaeric human-non-human antibodies and chimaeric antibody chains, antibodies and antibody chains so produced, and derivatives thereof including fully humanized antibodies; compositions comprising the antibodies, antibody chains and derivatives, as well as cells, non-human mammals and vectors, suitable for use in the methods.

The disclosure relates to genetically modified swine wherein at least one allele of a SIGLEC1 gene has been inactivated and/or at least one allele of a CD163 gene has been inactivated. Genetically modified swine having both alleles of the SIGLEC1 gene and/or both alleles CD 163 gene inactivated are resistant to porcine reproductive and respiratory syndrome virus (PRRSV). Methods for producing such transgenic swine are also provided.

Provided herein are methods, assays and compositions relating to the treatment of neurological diseases and disorders, particularly by modulating expression and/or activity of Bif-1.

The invention relates generally to a composition and method for increasing the frequency, amount, or presence of red blood cells in peripheral blood. In one embodiment, the invention comprises the inhibition of, or genetic modification of the genes encoding, one or more scavenger receptors. In one aspect, the invention relates to treatments of anemia.

A genetically modified non-human animal comprising a genome containing an endogenous non-human ACE2 locus genetically modified to encode a complete human ACE2 gene. According to a further embodiment the genome is genetically modified to encode a second, a third, and a fourth complete human ACE2 gene, the human ACE2 gene is at least 85 percent identical to SEQ ID No: 1, the animal of is a mouse, the human ACE2 gene encodes six protein variants, an endogenous Tmprss2 gene is unmodified, a LoxP gene flanks each of a 5′ and a 3′ end of a nucleic acid sequence of the human ACE2 gene, and the human ACE2 gene is expressed in a lung, kidney, spleen, stomach, liver, intestine, heart, and skeletal muscle of the animal, and a cortex, striatum, middle brain, hippocampus, olfactory bulb, and cerebellum of a brain of the animal.

Non-human animals, methods and compositions for making and using the same, are provided, wherein said non-human animals comprise a mutant L-kynurenine hydrolase (or kynureninase) gene. Said non-human animals may be described, in some embodiments, as having a genetic modification in an endogenous kynureninase gene so that said non-human animals express a kynureninase polypeptide that includes an amino acid substitution that results in the elimination of an epitope in said kynureninase polypeptide that is present in the membrane proximal external region of human immunodeficiency virus-1 gp41.

The present disclosure relates to the genetically modified non-human animals that express a human or chimeric (e.g., humanized) T-cell immunoglobulin and mucin-domain containing-3 (TIM-3), and methods of use thereof.

The present invention relates to polyclonal antibodies directed against at least one non-human biological pathogen, or against at least one molecule derived from said pathogen, towards a human or a non-human animal organism, wherein the said polyclonal antibodies are devoid of an antigenic determinant selected in a group comprising (i) N-glycolneuraminic acid (Neu5Gc) and/or (ii) a-1,3-galactose, and their use as a medicament.

Compositions and methods are provided for measuring population size for a plurality of clonal cell populations in the same individual, e.g., for measuring tumor size for a plurality of clonally independent tumors within the same individual. A subject method can include: (a) contacting an individual with a plurality of cell markers that are heritable and distinguishable from one another, to generate a plurality of distinguishable lineages of heritably marked cells; (b) after sufficient time has passed for the heritably marked cells to undergo at least one round of division, detecting and measuring quantities of at least two of the plurality of cell markers present in the contacted tissue, thereby generating a set of measured values: and (c) using the set of measured values to calculate the number of heritably marked cells that are present (e.g., for at least two of the distinguishable lineages of heritably marked cells).