A composition containing a glucagon derivative and a GLP-1 and GIP receptor dual agonist, and uses thereof are disclosed. The glucagon derivative comprises an amino acid sequence of the formula 1: X1-X2-QGTF-X7-SD-X10-S-X12-X13-X14-X15-X16-X17-X18-X19-X20-X21-F-X23-X24-WL-X27-X28-X29-X30 (Formula 1). The composition is useful in preventing or treating metabolic syndrome.

The application provides a multi-specific antibody-like protein having a N-terminal and a C-terminal, comprising in tandem from the N-terminal to the C-terminal, a first binding domain (D1) at the N-terminal, a second binding domain (D2) comprising a light chain moiety, a Fc region, a third binding domain (D3), and a fourth binding domain (D4) at the C-terminal, wherein the light chain moiety comprises a fifth binding domain (D5) covalently attached to the C-terminal, a sixth binding domain (D6) covalently attached to the N-terminal, or both, and wherein the D1, D2, D3, D4, D5 and D6 each has a binding specificity against a tumor antigen, an immune signaling antigen, or a combination thereof.

The present invention concerns improved methods and compositions for preparing SN-38 conjugates of proteins or peptides, preferably immunoconjugates of antibodies or antigen-binding antibody fragments. More preferably, the SN-38 is attached to the antibody or antibody fragment using a CL2A linker, with 1-12, more preferably 6-8, alternatively 1-5 SN-38 moieties per antibody or antibody fragment. Most preferably, the immunoconjugate is prepared in large scale batches, with various modifications to the reaction scheme disclosed herein to optimize yield and recovery in large scale. Other embodiments concern optimized dosages and/or schedules of administration of immunoconjugate to maximize efficacy for disease treatment and minimize side effects of administration.

The present disclosure relates generally to cysteine engineered antibody-drug conjugates comprising peptide-containing linkers and to methods of using these conjugates as therapeutics and/or diagnostics.

The invention provides an anti-PD-1 antibody comprising the complementary determining regions (CDRs) of pembrolizumab in combination with an antibody-drug conjugate that binds to tissue factor (TF) comprising monomethyl auristatin E and the CDRs of tisotumab (e.g., tisotumab vedotin) and their use in methods of treating cancer, such as breast cancer and cervical cancer. The invention also provides compositions and kits comprising the anti-PD-1 antibody comprising the CDRs of pembrolizumab and the antibody-drug conjugate that binds to TF comprising monomethyl auristatin E and the CDRs of tisotumab (e.g., tisotumab vedotin) for use in treating cancer, such as breast cancer and cervical cancer.

The present invention relates to the conjugates of Tubulysin derivatives (anologs) and cell-binding molecules using branched (side-chain) linkers, and the resulting conjugates have better pharmacokinetic properties, and thus can more accurately target and kill abnormal cells. The invention also relates to the conjugation methods of the Tubulysin derivatives (anologs) to cell-binding molecules, and methods for synthesizing the small molecules, and methods of using the conjugates for targeted therapy for cancers, infections and autoimmune diseases. The conjugates of Tubulysin derivatives with long branched linkers demonstrated increased half-life, minimal exposure to non-targeted cells, tissues or organs in system circulation, leading to reduced off-target toxicity.

The present invention provides a half-life extension drug and a library thereof, and a preparation method and application thereof. Specifically, the present invention provides a drug library, comprising: (a) a drug unit; and (b) n half-life extension units, wherein the drug unit comprises a drug element portion and a first nucleic acid element portion connected to the drug element portion, and each half-life extension unit comprises a half-life extension element portion and a second nucleic acid element portion connected to the half-life extension element portion. Moreover, one first nucleic acid element portion of the drug unit and the second nucleic acid element portion of the at least one half-life extension unit may form a “drug unit-half-life extension unit” complex by forming a complementary base pairing structure, and n is a positive integer greater than or equal to 1.

The present invention relates to new antibody-drug conjugates (ADCs) targeting ROR1, active metabolites of such ADCs, methods for preparation of such ADCs, uses for such ADCs in treatment and/or prevention of illnesses, and uses for such ADCs in production of drugs for treatment and/or prevention of diseases, more specifically diseases associated with over-expression of ROR1, for example cancer. More specifically, the present invention relates to an antibody-drug conjugate comprising an antibody that binds to ROR1 or an antigen-binding fragment thereof, and a pharmaceutical composition comprising the same.

Methods are provided for identifying and selecting antibodies that are internalized into cells via the macropinocytosis pathway. Additionally antibodies that are internalized via this pathway are provided as well as immunoconjugates comprising such antibodies.

Novel neoantigen-eliciting antibody drug conjugates are disclosed. These compounds or pharmaceutically acceptable salts, hydrates, solvates, isomers, or tautomers thereof are useful for the treatment of disorders, including but not limited to pancreatic cancer and other check point positive cancers. More particularly, these compounds may comprise biologically active polypeptides or hormones modified to include the attachment of therapeutic compounds using linkers. The compounds of the disclosure, or pharmaceutically acceptable salts, hydrates, solvates, isomers, or tautomers thereof, also comprise therapeutic compounds connected to linkers.