Non-human animal cells and non-human animals comprising a humanized ACE2 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 ACE2 locus express a human ACE2 protein or a chimeric ACE2 protein, fragments of which are from human ACE2. Methods are also provided for using such non-human animals comprising a humanized ACE2 locus to assess in vivo ACE2 activity, e.g., coronavirus infection and/or the treatment or prevention thereof.

The present disclosure relates to a PD-1 variant having improved binding affinity to PD-L1. In addition, the present disclosure relates to a method for preparing the PD-1 variant and a method for screening the PD-1 variant. The PD-1 variant of the present disclosure effectively inhibits the binding between wild-type PD-1 and PD-L1, and thus is expected to have significantly higher penetration ability and anticancer effect by immune cells or therapeutic effect for infectious diseases as compared to existing immune checkpoint inhibitors. At the same time, the possibility of immunogenicity can be minimized. In addition, the convenience of developing biomedicine may be promoted through aglycosylation.

Methods and compounds for conferring site-specific or local immune privilege.

Disclosed is a dTAG system comprising small molecule degraders of mutant BET family protein-tagged proteins via recruitment of an E3 ubiquitin ligase and uses thereof.

The invention provides bispecific fusion proteins that inhibit activation of complement pathway and vascular endothelial growth factor (VEGF) pathway and methods for using these fusion proteins.

Disclosed herein is a novel chimeric antigen receptor and use thereof. The novel chimeric antigen receptor consists of a signal peptide, an antigen binding domain, a transmembrane region, and an intracellular signal domain, and comprises a 4-1BB signal peptide and/or a 4-1BB molecular transmembrane region. Nucleic acid sequences of various chimeric antigen receptors are separated and purified and provided is a chimeric antigen receptor and a CAR-T cell which are specific for a CD19 malignant tumor antigen. In the malignant tumor killing test of hematological cell lines, the ability of immune cells to target and recognize tumor cells is significantly enhanced, and the killing activity against tumor cells is also enhanced.

The present invention provides a chimeric antigen receptor and natural killer cells expressing the same, and particularly, a chimeric antigen receptor (CAR) which includes an intracellular signaling domain including the whole or a portion of an OX40 ligand (CD252), thereby having excellent effects of increasing anticancer activity of immune cells, and immune cells expressing the same.

The present disclosure provides regulatable biocircuit systems. Such systems provide modular and tunable protein expression systems in support of the discovery and development of therapeutic modalities. In particular, the present application is directed to fusion proteins comprising a fragment of human human carbonic anhydrase 2 and a chimeric antigen receptor (CAR). The activity of the destabilizing domain can be regulated by externally administered agents.

Disclosed herein are cells including cells expressing CD24 and related methods of their use and generation. In some embodiments, the cells disclosed herein do not express one or more MHC I and/or MHC II human leukocyte antigens. In some embodiments, the cells are hypoimmunogenic.

As described below, the present invention features genetically modified immune cells having enhanced anti-neoplasia activity, resistance to immune suppression, and decreased risk of eliciting a graft versus host reaction, or a combination thereof. The present invention also features methods for producing and using these modified immune effector cells.