This document provides methods and materials for assessing a mammal having or suspected of having cancer and/or for treating a mammal having cancer. For example, molecules including one or more antigen-binding domains (e.g., a single-chain variable fragment (scFv)) that can bind to a modified peptide (e.g., a tumor antigen), as well as method for using such molecules, are provided.

A compound and method for treating cancer, in particular prostate cancer. Id4 reverts mutant p53 activity to its wild type physiological status and activity. Id4 or its peptidemimatics are used to revert mutant p53 to wild type p53, restoring its tumor suppressor activity.

The invention relates to compositions including polynucleotides encoding polypeptides which have been chemically modified by replacing the uridines with 1-methyl-pseudouridine to improve one or more of the stability and/or clearance in tissues, receptor uptake and/or kinetics, cellular access by the compositions, engagement with translational machinery, mRNA half-life, translation efficiency, immune evasion, protein production capacity, secretion efficiency, accessibility to circulation, protein half-life and/or modulation of a cell's status, function, and/or activity.

The present disclosure provides a dendric cell tumor vaccine comprising a chimeric antigen receptor for activating the dendritic cell and a tumor antigen. The present disclosure also provides compositions and methods of making the dendritic cell tumor vaccine, and the methods of using the dendritic cell tumor vaccine to treat cancer.

Mutations in oncogenes and tumor suppressors contribute to the development and progression of cancer. Disclosed herein are compounds and methods to recover wild-type function of p53 mutants using x-ray co-crystal structures of mutant p53 and compounds of the disclosure. The compounds of the present invention can bind to mutant p53 and restore the ability of the p53 mutant to bind DNA and activate downstream effectors involved in tumor suppression. The disclosed compounds can be used to reduce the progression of cancers that contain a p53 mutation.

The invention provides compositions and methods for preventing or treating cancer in a subject. In some embodiments, the compositions comprise isolated peptides and/or isolated oligonucleotides. In other embodiments, peptides of the present invention are conjugated with cell-penetrating peptides. Vectors, cells, and kits for preventing or treating cancer are also provided herein.

The present invention relates to compositions and methods employing conjugates that include a self-assembly and disassembly (SADA) polypeptide and a binding domain. The present invention encompasses the recognition that conjugates with a SADA polypeptide have certain improved biological properties. SADA-conjugates are described, along with uses thereof (e.g., as therapeutic or diagnostic agents) and methods of manufacture.

The present invention relates to a brain tumor animal model that directly reflects the phenomenon in a human patient and a method of preparing the same, and more specifically, a brain tumor animal model that mutations are introduced into p53, Pten, and EGFR genes, a screening method of a therapeutic agent for a brain tumor using the animal model, and a preparing method thereof.

Disclosed are methods of producing poxvirus-based vectors or recombinant poxvirus-based vectors from naturally derived, chemically synthesized DNA fragments, or a combination of naturally derived and chemically synthesized DNA fragments. One or more DNA sequences encoding one or more antigens, subunits or fragments thereof or other heterologous gene sequences are inserted in one or more poxvirus insertion sites in one or more DNA fragments. The methods include transfecting a host cell with one or more circular or linear DNA fragments such that a poxvirus or recombinant poxvirus is reconstituted in the host cell, the reconstituted poxvirus or recombinant poxvirus comprising the genome of a desired poxvirus. Also disclosed are poxviruses or recombinant poxviruses produced by the technology and uses thereof.

Half of the cancers typically occur due to ineffective capability in their p53 proteins. The invention supplies the cells of the human body or patient with mRNA which will generate effective wild-type p53 proteins, so that this said protein can conduct proper surveillance inside the body's cells and act to destroy cells which have become or are about to become cancerous. The invention also includes introduction of interfering RNA to degrade mutated p53, allowing wild-type p53 proteins to form functional oligomers for cellular surveillance.