Non-human animals (and/or non-human cells) and methods of using the same are provided, which non-human animals (and/or non-human cells) have a genome comprising human antibody-encoding sequences (i.e., immunoglobulin genes). Non-human animals described herein express antibodies that contain immunoglobulin (Ig) light chains characterized by the presence of human Vλ domains. Non-human animals provided herein are, in some embodiments, characterized by expression of antibodies that contain human Vλ light chains that are encoded by human Igλ light chain-encoding sequences inserted into an endogenous Igκ light chain locus of said non-human animals Methods for producing antibodies from non-human animals are also provided, which antibodies contain human variable regions and mouse constant regions.

A mouse with a humanization of the mIL-3 gene and the mGM-CSF gene, a knockout of a mRAG gene, and a knockout of a mIl2rg subunit gene; and optionally a humanization of the TPO gene is described. A RAG/Il2rg KO/hTPO knock-in mouse is described. A mouse engrafted with human hematopoietic stem cells (HSCs) that maintains a human immune cell (HIC) population derived from the HSCs and that is infectable by a human pathogen, e.g., S. typhi or M. tuberculosis is described. A mouse that models a human pathogen infection that is poorly modeled in mice is described, e.g., a mouse that models a human mycobacterial infection, wherein the mouse develops one or more granulomas comprising human immune cells. A mouse that comprises a human hematopoietic malignancy that originates from an early human hematopoietic cells is described, e.g., a myeloid leukemia or a myeloproliferative neoplasia.

Provided herein are transgenic non-human animals whose genomes comprise two or more human genes selected from CD33, Siglec-5, Siglec-7, Siglec-9, Siglec-11, Siglec-14, and Siglec-16, to methods of screening candidate agents that bind to and/or modulate the function and/or activity of at least one of the human genes in the transgenic non-human animals, and to methods of screening candidate agents to determine their effect on one or more activities and/or functions associated with expression of at least one of the human genes in the transgenic non-human animals. Further provided herein are methods of recapitulating a human Siglec immune system in a non-human animal, and methods of generating a non-human animal disease model comprising a human Siglec repertoire.

Genetically modified non-human animals are provided that may be used to model human hematopoietic cell development, function, or disease. The genetically modified non-human animals comprise a nucleic acid encoding human IL-6 operably linked to an IL-6 promoter. In some instances, the genetically modified non-human animal expressing human IL-6 also expresses at least one of human M-CSF, human IL-3, human GM-CSF, human SIRPa or human TPO. In some instances, the genetically modified non-human animal is immunodeficient. In some such instances, the genetically modified non-human animal is engrafted with healthy or diseased human hematopoietic cells. Also provided are methods for using the subject genetically modified non-human animals in modeling human hematopoietic cell development, function, and/or disease, as well as reagents and kits thereof that find use in making the subject genetically modified non-human animals and/or practicing the subject methods.

An engineered AAV capsid is provided, in which at least one protein on the capsid is modified to include a n-mer motif, which promotes transduction of the capsid into the central nervous system (CNS) through interaction with the Transferrin receptor. Further embodiments provide a vector system comprising one or more vectors encoding AAV capsids and a method of delivering cargo to the CNS. The method comprises administering, in vivo or in vitro, a AAV capsid according to embodiments described herein and the AVV capsid comprises one or more cargo molecules.

A genetically reprogrammed, biologically active and metabolically active cell, tissue, and/or an organ comprising live cells that vascularize after xenotransplantation, wherein the genetically reprogrammed, biologically active and metabolically active cell, tissue, and/or an organ has been obtained from a non-wild type, biologically engineered porcine comprising a nuclear genome that has been reprogrammed to replace a plurality of nucleotides in a plurality of exon regions of a major histocompatibility complex of a wild-type porcine with a plurality of synthesized nucleotides from a human captured reference sequence, wherein the nuclear genome has wild-type porcine intron regions from a wild-type porcine and has been reprogrammed at exon regions.

Provided are genetically modified non-human animals that express a human or chimeric (e.g., humanized) CCR8, and methods of use thereof.

The present disclosure pertains to immune cells comprising exogenous fibrolytic agents and/or exogenous anti-inflammatory agents and methods of using immune cells comprising exogenous fibrolytic agents and/or exogenous anti-inflammatory agents.

The present invention relates generally to genetically modified non-human animals and immunodeficient non-human animals characterized by restored complement-dependent cytotoxicity, as well as methods and compositions for assessment of therapeutic antibodies in the genetically modified immunodeficient non-human animals. In specific aspects, the present invention relates to immunodeficient non-obese diabetic (NOD), A/J, A/He, AKR, DBA/2, NZB/B1N, B10.D2/oSn and other mouse strains genetically modified to restore complement-dependent cytotoxicity which is lacking in the unmodified immunodeficient mice. In further specific aspects, the present invention relates to NOD.Cg-Prkdc.sup.scid IL2re.sup.tmlWjl/SzJ (NSG), NOD.Cg-Rag1.sup.tm1Mom Il2rg.sup.tmlWjl/SzJ (NRG) and NOD.Cg-Prkdc.sup.scid Il2rg.sup.tm1Sug/JicTac (NOG) mice genetically modified to restore complement-dependent cytotoxicity which is lacking in unmodified NSG, NRG and NOG mice. Methods for assessment of therapeutic antibodies or putative therapeutic antibodies in the genetically modified immunodeficient mice characterized by an intact complement system are provided according to specific aspects of the present invention.

Described are transgenic, non-human animals comprising a nucleic acid encoding an immunoglobulin light chain, whereby the immunoglobulin light chain is human, human-like, or humanized. The nucleic acid is provided with a means that renders it resistant to DNA rearrangements and/or somatic hypermutations. In one embodiment, the nucleic acid comprises an expression cassette for the expression of a desired molecule in cells during a certain stage of development in cells developing into mature B cells. Further provided is methods for producing an immunoglobulin from the transgenic, non-human animal.