Aspects of the present disclosure provide a platform that triggers potent and effective immunotherapy against tumors from within tumors themselves, thus overcoming limitations of existing cancer immunotherapies and tumor-detecting gene circuits.

The present invention relates to novel peptides derived from Melanoma-associated antigen C (MAGEC1), complexes comprising such peptides bound to recombinant MHC molecules, and cells presenting said peptide in complex with MHC molecules. Also provided by the present invention are binding moieties that bind to the peptides and/or complexes of the invention. Such moieties are useful for the development of immunotherapeutic reagents for the treatment of diseases such as cancer.

The present invention relates to novel peptides derived from P antigen family member 5 (PAGE5), complexes comprising such peptides bound to recombinant MHC molecules, and cells presenting said peptide in complex with MHC molecules. Also provided by the present invention are binding moieties that bind to the peptides and/or complexes of the invention. Such moieties are useful for the development of immunotherapeutic reagents for the treatment of diseases such as cancer.

The invention comprises systems, methods and arrays for identification and optimization of novel peptide binders to protein targets. Embodiments include steps of peptide binder discovery, core peptide maturation, N-terminal and C-terminal extension and kinetics analysis of the final peptide binder.

The present invention relates to immunoglobulin single variable domain sequences that are directed against (as defined herein) OX40L, as well as to compounds or constructs, and in particular proteins and polypeptides, that comprise or essentially consist of one or more such immunoglobulin single variable domain sequences. In particular these immunoglobulin single variable domain sequences can block binding of OX40L to OX40.

The immunoglobulin single variable domains, compounds and constructs can be used for prophylactic, therapeutic or diagnostic purposes, such as for the treatment of inflammatory disease and/or disorder such as e.g. asthma, allergic asthma, chronic colitis, Crohn's disease, inflammatory bowel disease, and/or arthrosclerosis.

The present invention provides automated systems and methods for enhanced silver staining of gold particles. The systems may preferably be used in an automated process for enhancing detection of gold-labelled probes on a microarray comprising discrete regions with a density of at least 20 of the discrete regions per cm2, wherein silver ion solution and reducing agent solution are premixed prior to application to the solid support having the array thereon or in which the array is agitated after addition of the two solutions to the solid support having the array thereon.

The present invention is relevant to proteins and novel methods of protein evolution. The present invention further relates to methods of identifying and mapping mutant polypeptides formed from, or based upon, a template polypeptide.

The present application provides methods and systems to identify host cell protein (HCP) impurities in a sample containing high-abundance proteins. The HCP impurities can be enriched using interacting peptide ligands which have been attached to solid support. The HCP impurities can be eluted from the solid support using solution containing phase transfer surfactants. The isolated HCP impurities can be digested to generate components of the isolated HCP impurities which can subsequently be identified using a mass spectrometer.

The present invention provides a cell-based assay for identifying and/or quantifying anti-CD3 homodimers in a composition comprising a T cell-dependent Bispecific antibody (TDB). In some aspects, the invention T cells comprising a T cell activation responsive reporter are contacted with the TDB to detect the presence of anti-CD3 homodimers. Compositions of reporter T cells and kits are also contemplated.

Methods for producing high concentration protein formulations having high stability are provided. Assays for selecting proteins and formulation conditions that have high self-repulsive attributes are used as an early step in the manufacturing process. Specifically, a protein concentration-dependent self-interaction nanoparticle spectroscopy method is employed as a protein colloidal interaction assay.