Formulations comprising masked antibodies are provided. In some embodiments, there is reduced aggregation of the masked antibodies in the formulations. In various embodiments, the formulations are pharmaceutical formulations suitable for use in therapeutic treatment.

The present invention relates, in part, to targeted chimeric proteins with beneficial therapeutic effects, including, for example, effects mediated by chimeric proteins which comprise modified signaling agents two or more targeting moieties. Methods of treatment and pharmaceutical compositions comprising the chimeric proteins are also provided. The present invention finds use in the treatment of various disease and disorders.

The present invention provides an anti-B7-H3 monoclonal antibody and use thereof in cell therapy. Specifically, the present invention provides an scFv, an antibody, and a specific CAR-T cell specifically targeting B7-H3. The present invention further provides an engineered immune cell capable of co-expressing a CAR targeting B7-H3 and a chimeric molecule or a secreted protein of PD-L1, the engineered immune cell having good tumor killing effects.

Provided herein are compositions and methods useful for the transplantation of hematopoietic stem and progenitor cells, as well as for preparing patients for receipt of such therapy, such as patients suffering from a variety of inherited metabolic disorders.

Fusion polypeptides with modified multimerization domains that provide high expression, solubility, stability, and low immunogenicity to the fusion polypeptides have been developed. TRAIL compositions with the modified multimerization domains show improved physico-chemical and biological properties relative to TRAIL compositions with unmodified multimerization domains. The TRAIL compositions also have lower immunogenicity in the mammalian host when compared to that of TRAIL compositions with unmodified multimerization domains. The TRAIL compositions induce apoptosis of cancer cells and cancer-associated fibroblasts in vivo, reducing tumor size.

Disclosed herein are polypeptides for use in treating diseases associated with pathogenic genomic repeat sequences, such as neurological disorders. Also disclosed are nucleic acid molecules and vectors that encode such polypeptides. Therapeutic uses and methods for treating such diseases are also disclosed; in particular, therapeutic uses and methods comprising complementary pairs and combinations of therapeutic polypeptides, nucleic acids or vectors. Also disclosed is a method and associated peptides and nucleic acids for active, long-term delivery of therapeutic molecules to target cells in vivo or in vitro.

Described are stable pre-fusion respiratory syncitial virus (RSV) F polypeptides, immunogenic compositions comprising the polypeptides and uses thereof for the prevention and/or treatment of RSV infection.

An scFv-Fc dimer binds and neutralizes TGFβ1 selectively and with high affinity and avidity. The scFv region may comprise the same VH and VL domains or CDR regions as metelimumab. The unique combination of their smaller size, high selectivity, potency against TGFβ1, and long in vivo half-life makes the scFv-Fc dimers ideal candidates for therapeutic applications.

Humanized antibodies, including masked antibodies that specifically bind to CD47 are provided. Methods for using anti-CD47 antibodies, including masked antibodies, to modulate activity of (e.g., inhibit proliferation of) a CD47-expressing cell, as well as for the treatment of one or more diseases or disorders (e.g., cancer) associated with CD47-expressing cells, are provided.

Disclosed are compounds for use in modulating immune responses. More particularly, the present invention discloses oligomeric forms of PD-L2 for use in modulating Th1 immune responses. The compounds of the present invention find utility in a range of Th1-mediated disorders including pathogenic infections and hyperproliferative disorders.