The present invention provides anti-CLDN18.2 antibody-drug conjugates which are effective for treating and/or preventing cancer diseases associated with cells expressing CLDN18.2, including gastric cancer, esophageal cancer, pancreatic cancer, lung cancer, ovarian cancer, colon cancer, hepatic cancer, head-neck cancer, and cancer of the gallbladder and metastases thereof.

The present disclosure provides antibody sequences found in antibodies that bind to human CD38. In particular, the present disclosure provides sequences of anti-human CD38 antibodies. Antibodies and antigen-binding portions thereof including such sequences present features compatible with pharmaceutical manufacturing and development can be provided as fully human antibodies (e.g., fully human monoclonal antibodies or antigen-binding fragments) that can be useful for medical methods and compositions, in particular for treating cancer.

NEW MATERIAL: Recombinant plasmid pTPGIF2 having a size of 4,660 base pairs and a structure obtained by inserting a DNA having a size of 52 base pairs and containing a sequence coding somatostatin into a BamHI incision site of a plasmid vector pTP70-1 capable or fusing a heteropeptide to a carboxy-terminal of a dihydrofolic acid reductase gene of E. coli. USE: Producton of fused protein containing somatostatin.

PREPARATION: A somatostatin gene is integrated into a plasmid vector pTP70-1. pTPGIF2 is kept in stable state when introduced into E. coli. C600 strain. The E. coli. C600 train containing pTPGIF2 is deposited in Fermentation Research institute as FERM BP-1577.

In various embodiments tolerogenic nanoparticles are provided that induce immune tolerance to one or more desired antigen(s) and/or that reduce an immune response to those antigen(s). In certain embodiments the tolerogenic nanoparticle comprises a nanoparticle comprising a biocompatible polymer; an antigen disposed within or attached to said biocompatible polymer where said antigen comprises an antigen to which immune tolerance is to be induced by administration of said tolerogenic nanoparticle to a mammal; and a first targeting moiety that binds to a scavenger receptor in the liver, and/or a second targeting moiety that binds to a mannose receptor in the liver, and/or a third targeting moiety that binds to hepatocytes, wherein said first and/or second and/or third targeting moiety are attached to the surface of said nanoparticle.

The present invention relates to new conjugated capsular saccharide antigens (glycoconjugates), immunogenic compositions comprising said glycoconjugates and uses thereof.

The present invention relates to new conjugated capsular saccharide antigens (glycoconjugates), immunogenic compositions comprising said glycoconjugates and uses thereof.

The present invention relates to an anticancer vaccine which includes polynucleotides or polypeptides, methods of treatment of cancer wherein such an anticancer vaccine is used as well as methods for producing the vaccine. The vaccine includes a polynucleotide with a nucleotide sequence encoding a targeting unit, a dimerization unit, a first linker and an antigenic unit. The antigenic unit includes from 3 to 50 antigenic subunits separated by a second linker with each antigenic subunit having at least a part of a cancer neoepitope sequence. The vaccine can include a polypeptide encoded by the polynucleotide or a dimeric protein with two polypeptides encoded by the polynucleotide.

The present invention relates to a patient-specific tumor treatment targeting individual expression patterns of tumor antigens, in particular shared tumor antigens, and individual tumor mutations. In one aspect, the present invention relates to a method for preventing or treating cancer in a patient comprising the steps of: (i) inducing a first immune response against one or more tumor antigens in the patient, and (ii) inducing a second immune response against one or more tumor antigens in the patient wherein the second immune response is specific for cancer specific somatic mutations present in cancer cells of the patient.

Disclosed are compositions, kits, and methods for modulating an immune response. The compositions and kits include and the methods utilize carbohydrate-modified particles having an immune modulator attached at the surface of the particles. The carbohydrate-modified particles and particulate formulations comprising the carbohydrate-modified particles may be utilized for modulating an immune response in a subject.

Disclosed are antimicrobial vaccines comprising oligosaccharide β-(1.fwdarw.6)-glucosamine groups.