Disclosed is a method for improving affinity of an antibody for an antigen, comprising, in an unmodified antibody, improving affinity for an antigen as compared to the unmodified antibody, by changing 17th, 18th and 20th amino acid residues of a light chain defined by Kabat method to charged amino acid residues.

The present invention relates, in part, to targeted chimeric proteins with beneficial therapeutic effects, including, for example, effects mediated by mutant forms of soluble agents that are part of the chimeric proteins. Pharmaceutical compositions comprising the chimeric proteins are also provided. The present invention finds use in the treatment of various disease and disorders.

The present disclosure provides a use of a dimer in the preparation of a medicament for treating a tumor in a subject in need thereof, and the dimer formed by two polypeptide chains, with each of the two polypeptide chains comprising an antibody Fc subunit, wherein the dimer comprises two or more immunoglobulin single variable domains (ISVDs), at least one of the ISVDs is specific for PD-L1, and at least one of the ISVDs is specific for CTLA4. The present disclosure also provides a method for treating a tumor in a subject in need thereof, wherein the subject is resistant to the therapy of an immune checkpoint inhibitor.

A brain-penetrating composition of amyloid-ß binding peptide is disclosed. This may be useful in the treatment of Alzheimer's disease, for example as a bifunctional molecule, comprising a blood-brain barrier crossing antibody and an amyloid-ß targeting peptide linked via an Fc fragment that is able to transmigrate across the blood-brain barrier into the brain, and compositions comprising same. Methods of using this composition for treating Alzheimer's disease are disclosed.

Provided herein are modified T cell engagers, pharmaceutical compositions thereof, as well as nucleic acids, and methods for making and discovering the same. The modified T cell engagers described herein are modified with a peptide and a half-life extending molecule.

According to embodiments, at least one polypeptide comprising at least one antiviral single domain antibody and their methods of use in antiviral treatment are provided. More specifically, embodiments provide at least one polypeptide having at least one anti-viral single domain antibody (e.g. anti-Hepatitis B Virus) for targeting a guanine-rich region of the viral DNA, inhibiting transcription of the viral DNA.

Compositions, e.g., compositions comprising protein therapeutics, and methods of using such compositions for treating cancer are described.

The present invention concerns modified recombinant J-chain polypeptides, binding molecules, such as antibodies comprising the same, and their uses.

This disclosure relates to anti-coronavirus (e.g., SARS-CoV-2) antibodies or antigen-binding fragments and uses thereof.

Provided are innovative compositions for tethering blocking an inactivating of airborne respiratory infectious viruses. The compositions comprise bispecific proteins with two different antigen binding regions (ABR), which are typically configured as immunoglobulin “single variable domains” (ISV). A first ISV binds to a surface protein found on an airborne infectious virus. A second ISV binds to a mucin protein, e.g. a mucin protein present on ocular, nasopharyngeal, tracheal and/or oral surfaces of a mammal. The two ISV are joined by a polypeptide linker.