The invention provides antibodies, antibody fragments or antigen-binding fragments, as well as related antibody drug conjugates (ADCs) and chimeric antigen receptors (CARs), that specifically recognize human ROR2. Also provided in the invention are methods of using such antibodies in various diagnostic and therapeutic applications.

A method of preparing a conditionally active polypeptide from a parent polypeptide, comprising steps of evolving a DNA encoding the parent polypeptide by increasing a net charge of the parent polypeptide using one or more techniques selected from increasing a total number of codons of charged amino acid residues in the DNA and decreasing a total number of codons of uncharged amino acid residues in the DNA to create mutant DNAs; expressing the mutant DNAs to obtain mutant polypeptides; and selecting the conditionally active polypeptide from the mutant polypeptides which exhibits a decrease in activity in a first assay at a first value of a condition compared to the same activity in a second assay at a second value of the same condition. The conditionally active polypeptide, pharmaceutical compositions containing same, nanoparticle and drug conjugates thereof and uses thereof are also provided.

The disclosure relates to compositions comprising diastereomer of a macrolide exhibiting improved therapeutic profile in the context of inhibiting cell proliferation compared to the corresponding compositions comprising mixture of diastereomers. The disclosure further provides drug-ligand conjugates formed using diastereomer of the macrolide. The disclosure also provides novel method of preparation of diastereomer of the macrolide and their therapeutic uses.

The present invention relates to novel linkers containing a 2,3-disubstituted succinic group, or 2-monosubstituted, or 2,3-disubstituted fumaric or maleic (trans (E)- or cis (Z)-butenedioic), or acetylenedicarboxyl group for conjugation of a cytotoxic agent, and/or one or more different functional molecules per linker to a cell-binding molecule, through bridge linking pairs of thiols on the cell-binding molecule specifically. The invention also relates to methods of making such linkers, and of using such linkers in making homogeneous conjugates, as well as of application of the conjugates in treatment of cancers, infections and autoimmune disorders.

Provided are novel anti-SEZ6 antibodies and antibody drug conjugates, and methods of using such anti-SEZ6 antibodies and antibody drug conjugates to treat cancer.

Disclosed are lipidoid compounds as well as lipidoid nanoparticles comprising such compounds.

[Problem] It is desired to develop an antibody-drug conjugate capable of being systemically administered and delivering a STING agonist specifically to a target cells or organ (for example, a tumor lesion), and a therapeutic agent and/or therapeutic method using the antibody-drug conjugate for diseases related to STING agonist activity, for example, diseases (for example, cancers) to which immunostimulation therapy can be applied. [Solution] The present invention provides a novel antibody-CDN derivative conjugate which can be systemically administered and exhibits an antitumor effect against an antigen-expressing tumor.

Single-domain antibodies that bind the severe acute respiratory syndrome corona virus 2 (SARS-CoV-2) spike protein are disclosed. The single-domain antibodies include binding domains that bind epitopes of the Spike ectodomain inside and outside the receptor binding domain. The single-domain antibodies can be used for multiple purposes including in the research, diagnosis, and prophylactic or therapeutic treatment of COVID-19.

The present invention relates to photoactivatable compounds and methods of use thereof for determining binding site and other structural information about RNA transcripts. The invention also provides methods of identifying RNA transcripts that bind compounds and are thus druggable, methods of screening drug candidates, and methods of determining drug binding sites and/or accessible or reactive sites on a target RNA.

A method of preparing a conditionally active polypeptide from a parent polypeptide, comprising steps of evolving a DNA encoding the parent polypeptide by increasing a net charge of the parent polypeptide using one or more techniques selected from increasing a total number of codons of charged amino acid residues in the DNA and decreasing a total number of codons of uncharged amino acid residues in the DNA to create mutant DNAs; expressing the mutant DNAs to obtain mutant polypeptides; and selecting the conditionally active polypeptide from the mutant polypeptides which exhibits a decrease in activity in a first assay at a first value of a condition compared to the same activity in a second assay at a second value of the same condition. The conditionally active polypeptide, pharmaceutical compositions containing same, nanoparticle and drug conjugates thereof and uses thereof are also provided.