The present invention relates to a brain tumor animal model that directly reflects the phenomenon in a human patient and a method of preparing the same, and more specifically, a brain tumor animal model that mutations are introduced into p53, Pten, and EGFR genes, a screening method of a therapeutic agent for a brain tumor using the animal model, and a preparing method thereof.

The ubiquitin ligase, RNF5, regulates the gut microbiota composition and influences the immune checkpoint response to tumors. RNF5 deficient animals exhibit significant inhibition of tumor development as well as an altered gut microbiota composition. Methods of treating cancer by administering to a subject one or more selected bacterial species and/or one or more prebiotics that promote the growth of one or more selected bacterial species are disclosed. Also disclosed are methods of treating cancer by administering to a subject one or more selected bacterial species and/or one or more prebiotics that promote the growth of one or more selected bacterial species in combination with one or more anti-cancer agents.

Provided herein are compositions that include at least two different nucleic acid vectors, where each of the at least two different vectors includes a coding sequence that encodes a different portion of an otoferlin protein, and the use of these compositions to treat hearing loss in a subject.

Disclosed are Pear 1 and, serving as a target of fibrotic diseases, applications in a medicament for treating human Pear 1-related diseases. Also disclosed are a Pear 1-targeting antibody or a mutant of same or a composition comprising same and applications thereof. Disclosed are a humanized Pear 1 transgenic mice model, a construction method for same, and applications thereof. The technical solution of the present invention regulates fibroblast activation and has broad application prospects in treating fibrotic diseases and accompanying debilitating diseases.

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 humanised antibodies; compositions comprising said antibodies, antibody chains and derivatives, as well as cells, non-human mammals and vectors, suitable for use in said methods.

The present invention provides a method of lowering blood pressure in a subject, comprising genetically modifying a myosin phosphatase target subunit (Mypt1) gene in a vascular smooth muscle cell of the subject, whereby the genetic modification of Mypt1 results in a deletion or inactivation of exon 24. The invention further provides vectors, host cells, and compositions useful for carrying out the methods of the invention.

Descried in certain example embodiments herein are engineered fish, particularly engineered catfish, that are engineered to contain modified myostatin, melanocortin-4 receptor, and/or one or more n-3 fatty acid biosynthesis pathway genes and/or gene products.

The present invention pertains to a non-human genetically modified animal with increased susceptibility to infection with a human virus. The invention suggests to genetically impair the expression of newly identified viral infection repression factors CD302, Cr11, Ndufc2, AW112010, Scarb2 and Zc3hav1, which markedly improves infection with human viruses in none-human hosts. Furthermore provided are methods for the generation of the animal of the invention, methods for increasing or reducing the susceptibility of a cell to viral infection, methods for screening novel modulators of viral infection as well as new therapy options for the treatment of viral diseases, in particular hepatitis C.

The present disclosure provides, among other things, genetically modified non-human animals whose germline genome comprises an engineered endogenous immunoglobulin κ light chain locus comprising a single rearranged human immunoglobulin λ light chain variable region operably linked to a non-human Cλ gene segment, where the single rearranged human immunoglobulin λ light chain variable region comprises a human Vλ gene segment and a human Jλ gene segment. All immunoglobulin λ light chains expressed by B cells of the genetically modified non-human animal include human immunoglobulin λ light chain variable domains expressed from the single rearranged human immunoglobulin λ light chain variable region or a somatically hypermutated version thereof. Such animals, tissues from such animals, and cells from such animals represent an effective platform for producing antibodies, e.g., bispecific antibodies.

The present invention is directed to genetically-modified non-human animal models with specific mutations in exon 3 of proline-rich acidic protein 1 (PRAP1) gene. Also disclosed herein are methods of treating hyperlipidemia or a hyperlipidemia-related disease by using a PRAP1 inhibitor or a modified PRAP1 polypeptide, as well as pharmaceutical compositions comprising the modified PRAP1 polypeptide.