The disclosure is directed to a biodegradable particle comprising a polyester or polyester blend, a first protein that binds to an immune cell, and a second protein that promotes proliferation and/or activation of immune cells, and a third soluble protein or small molecule encapsulated within the particle. The second protein is a fusion protein comprising at least a portion of an antibody and at least a portion of a cytokine (i.e., an immunocytokine). The disclosure also is directed to methods for treating a disease or condition in a subject (e.g., an autoimmune disease) comprising administering the aforementioned biodegradable particle to the subject.

The present invention comprises compounds of Formula I. ##STR00001## wherein: Z.sub.4, Z.sub.7, Z.sub.9, Z.sub.11, Z.sub.22, Z.sub.23, Z.sub.26, Z.sub.30, Z.sub.34, Z.sub.35, p, m, n, q, and BRIDGE are defined in the specification. The invention also relates to pharmaceutical compositions and methods for use thereof. The novel compounds are useful for preventing, treating or ameliorating diseases and disorders, such as obesity, type 2 diabetes, the metabolic syndrome, insulin resistance, and dyslipidemia, among others.

The present invention belongs to the field of tumor immunotherapy, and relates to a humanized monoclonal antibody that binds to VEGF. The present invention discloses nucleic acid sequences (including heavy/light chain variable regions) encoding said antibodies, and vectors, pharmaceutical compositions and kits containing said nucleic acid sequences. The antibody disclosed in the present invention can specifically bind to VEGF with high affinity and block the binding of VEGF to the receptor VEGFR2. Said antibodies also neutralize the proliferative effect of VEGF165 protein and multiple VEGF subtypes on HUVEC cells and can be used in clinical treatment of tumors, including but not limited to: colorectal cancer.

The present invention belongs to the field of immunotherapy of autoimmune diseases and relates to a humanized monoclonal antibody that binds IL17A. The present invention discloses a nucleic acid sequence encoding said antibody (including heavy/light chain variable regions), a vector containing said nucleic acid sequences, a pharmaceutical composition and a kit. Said monoclonal antibody is capable of specifically binding IL17A protein with high affinity, has a strong ability to block the binding of IL17A, IL17A/F with receptor IL17RA. Compared with comparable drugs, said antibody has superior or equivalent ability to block IL17A and IL17A/F induced-inflammatory cytokine secretion of human epidermal fibroblasts HFF; in a mouse psoriasis model, said antibody also showed significantly better in vivo efficacy than comparable drugs, and the administration of said antibody significantly reduced PASI scores; in the cynomolgus monkey efficacy study, said humanized antibody demonstrated superior pharmacokinetics, including rapid absorption after subcutaneous injection, long half-life, and better drug exposure, etc., laying the foundation for longer dosing cycles. The humanized monoclonal antibody of the present invention can be used for the treatment of psoriasis, etc.

A conjugate may comprise a first component capable of binding to a therapeutic target in the eye, one or more second component(s) capable of binding to hyaluronan, and one or more third component(s) comprising hyaluronan, wherein each second component is covalently bound to the first component and non-covalently bound to a third component, a composition comprising the conjugate for use as a medicament or for use in the treatment of an eye disease and a method of treating an eye disease in a subject. Additionally, a therapeutic molecule targeted to a tissue in a patient may comprises a hyaluronic acid binding moiety and a therapeutically active agent, wherein the hyaluronic acid binding moiety comprises at least two link domains of Versican.

The invention relates to a therapeutic combination comprising: (a) a first pharmaceutical composition comprising a conjugate comprising a first binding molecule for binding to a first binding site of a cell-surface molecule and the conjugate comprising a saponin bound to said first binding molecule, wherein the saponin is a triterpene glycoside; and (b) a second pharmaceutical composition comprising a conjugate comprising a second binding molecule different from the first binding molecule, the second binding molecule comprising a second binding region different from the first binding region, for binding to a second binding site of said cell-surface molecule different from the first binding site of said cell-surface molecule, and the conjugate comprising an effector molecule covalently bound to said second binding molecule. The invention also relates to a pharmaceutical composition comprising said two conjugates. In addition, the invention relates to the pharmaceutical combination or the pharmaceutical composition of the invention for use as a medicament. Furthermore, the invention relates to the pharmaceutical combination or the pharmaceutical composition of the invention, for use in the treatment or prevention of a cancer, an autoimmune disease, a disease relating to (over)expression of a protein, a disease relating to an aberrant cell such as a tumor cell or a diseased liver cell, a disease relating to a mutant gene, a disease relating to a gene defect, a disease relating to a mutant protein, a disease relating to absence of a (functional) protein, a disease relating to a (functional) protein deficiency.

The invention provides methods to prepare protein conjugates from proteins having at least two cysteines. In one embodiment, a protein with a disulfide linkage is reduced to provide two free cysteines for reaction with a 1,3-dihaloacetone or similar reactant, linking the sulfur atoms of the two cysteines together. The ketone inserted between the sulfur atoms is then used to form a Schiff base to an aminated payload molecule, thus conjugating the protein to a payload. In another embodiment, two cysteine residues are tied together by reaction with a 1,3-dihaloacetone or similar reactant. The linkage between the sulfur atoms in each case holds the protein or peptide in a constrained conformation, while also providing a convenient place for attaching a payload with good specificity and efficiency.

The present invention discloses a multifunctional DNA-templated micelle system that has a payload carrier of at least a DNA bridge and a functionalized polyethylene glycol (PEG) segment. The micelle can be used to deliver molecules, such as drugs and polynucleotides, to targeted cells for pharmaceutical uses. The PEG segment provides a functional group, such as amine, for ligand conjugation. The DNA-templated micelle of the present invention is highly controllable in size, loading efficiency and tissue targeting, and can carry multiple payloads for targeted combination strategies in cancer therapy, such as gene delivery, gene therapy, and immunotherapy.

The present invention comprises conjugates comprising a monoclonal antibody conjugated to a cyclic PYY peptide. The invention also relates to pharmaceutical compositions and methods for use thereof. The novel conjugates are useful for preventing, treating or ameliorating diseases and disorders disclosed herein.

The current invention relates to an effector moiety capable of inducing an intracellular effect when present inside a mammalian cell, the effector moiety comprising a payload conjugated with at least one saponin. The invention also relates to an antibody-drug conjugate comprising the effector moiety according to the invention, or a ligand-drug conjugate comprising the effector moiety of the invention, the effector moiety comprising covalently coupled saponin. The invention also relates to a therapeutic combination comprising: (a) the effector moiety of the invention, comprising at least one saponin, and optionally a pharmaceutically acceptable excipient; and (b) an antibody-drug conjugate or a ligand-drug conjugate, and optionally a pharmaceutically acceptable excipient. Further, the invention relates to a pharmaceutical composition comprising the effector moiety of the invention or the antibody-drug conjugate of the invention or the ligand-drug conjugate of the invention, comprising at least one saponin covalently linked to the effector molecule, and optionally a pharmaceutically acceptable excipient. The invention also relates to the effector moiety of the invention or the antibody-drug conjugate of the invention or the therapeutic combination of the invention or the ligand-drug conjugate of the invention or the pharmaceutical composition of the invention, for use as a medicament. Finally, the invention also relates to the effector moiety of the invention or the antibody-drug conjugate of the invention or the therapeutic combination of the invention or the ligand-drug conjugate of the invention or the pharmaceutical composition of the invention, for use in the treatment or prevention of a cancer or an autoimmune disease.