Described herein are compositions of antibodies and carrier proteins and methods of making and using the same, in particular, as a cancer therapeutic. Also described are lyophilized compositions of antibodies and carrier proteins and methods of making and using the same, in particular, as a cancer therapeutic.

The present disclosure provides for antibody-oligonucleotide conjugates, methods of preparation thereof, and methods of use thereof. Also provided are related compounds, compositions and kits.

The present application discloses a camptothecin drug and its antibody conjugate. Based on a comprehensive understanding of ADC drugs, the inventor designed a series of active anti-tumor exatecan-derivatives. The designed anti-tumor molecular compound showed good anti-tumor activity in the experiment.

The present disclosure relates to a linking unit molecule for targeting molecule-drug conjugate, and the corresponding conjugate, the preparation and use thereof, and in particular relates to an antibody-immune agonist conjugate (AIAC) as a novel type of cancer therapy.

A compound includes cytotoxic agents such as microcystin and nodularin. More specifically, a modified microcystin and/or nodularin compound contains one or more modified substrates, wherein one or more modified substrates include an anchor group directly accessible or transformable for use in conjugation chemistry (incl. click chemistry), for the attachment of a targeting moiety. This compound is useful for cancer treatment.

The present disclosure provides antigen-binding proteins which bind to Claudin-18.2 (CLDN18.2); bispecific antigen-binding proteins which bind to CLDN18.2 and a second antigen; and conjugates thereof. In various aspects, the antigen-binding proteins bind to Extracellular Loop 1 (EL1) of the extracellular domain of CLDN18.2. Related polypeptides, nucleic acids, vectors, host cells, and conjugates are further provided herein. Kits and pharmaceutical compositions comprising such entities are moreover provided. Also provided are methods of making an antigen-binding protein and methods of treating a subject having cancer.

Compounds having cytotoxic and/or anti-mitotic activity are disclosed. Methods associated with preparation and use of such compounds, as well as pharmaceutical compositions comprising such compounds, are also disclosed. Also disclosed are compositions having the structure: (T)-(L)-(D), wherein (T) is a targeting moiety, (L) is an optional linker, and (D) is a compound having cytotoxic and/or anti-mitotic activity.

The invention relates to a conjugate comprising (a) an amatoxin comprising (i) an amino acid 4 with a 6′-deoxy position; and (ii) an amino acid 8 with an S-deoxy position; (b) a target-binding moiety; and (c) optionally a linker linking said amatoxin and said target-binding moiety. The invention furthermore relates to a pharmaceutical composition comprising such conjugate.

Certain universal neoepitopes and cancer specific neoepitopes and methods therefore are presented that may be used in immunotherapy and cancer diagnosis. Preferred therapeutic and diagnostic compositions include antibodies or fragments thereof that bind to neoepitopes on cancer cells.

The present invention concerns novel and improved antibody-conjugates for targeting CD30. The inventors found that when antibody-conjugates were prepared using a specific mode of conjugation, they exhibit an improved therapeutic index. The mode of conjugation comprises a first step (i) of contacting a glycoprotein comprising 1-4 core N-acetylglucosamine moieties with a compound of the formula S(F.sup.1).sub.x-P in the presence of a catalyst, wherein S(F.sup.1).sub.x is a sugar derivative comprising x functional groups F.sup.1 capable of reacting with a functional group Q.sup.1, x is 1 or 2 and P is a nucleoside mono- or diphosphate, and wherein the catalyst is capable of transferring the S(F.sup.1).sub.x moiety to the core-GlcNAc moiety, to obtain a modified antibody; and a second step (ii) of reacting the modified antibody with a linker-conjugate comprising a functional group Q.sup.1 capable of reacting with functional group F.sup.1 and a target molecule D connected to Q.sup.1 via a linker L.sup.2 to obtain the antibody-conjugate wherein linker L comprises S—Z.sup.3-L.sup.2 and wherein Z.sup.3 is a connecting group resulting from the reaction between Q.sup.1 and F.sup.1. The invention also relates to a use for improving the therapeutic index of an antibody-conjugate and to a method for targeting CD30-expressing cells.