The present invention relates to a chimeric molecule useful in adoptive cell therapy (ACT), and cells comprising the same. The chimeric molecule can act as a modulator of cellular activity enhancing responses when an endogenous T-cell receptor (TCR) is engaged with its cognate antigen. The present invention also provides proteins, nucleic acids encoding the chimeric molecule and therapeutic uses thereof.

The present invention relates to a novel protein secretion factor, a vector including a nucleic acid sequence encoding the protein secretion factor, and a transformed cell into which the vector is introduced. The invention also relates to a method of producing a target protein using the transformed cell including the vector.

In some embodiments, marrow-infiltrating lymphocytes (“MILs”) comprising a chimeric antigen receptor (“CAR”) are provided. In some aspects, the embodiments relate to a MIL obtained from bone marrow comprising a chimeric antigen receptor. In some aspects, the embodiments relate to a method for treating a condition in a subject, comprising administering to the subject a MIL comprising a CAR.

The present disclosure provides synthetic modular polypeptide libraries and nucleic acids encoding such synthetic modular polypeptide libraries. Also provided are methods of making synthetic modular polypeptide libraries and nucleic acids encoding synthetic modular polypeptide libraries. Methods of screening a synthetic modular polypeptide library to identify a selected phenotype associated with a member of a synthetic modular polypeptide library are also provided where such methods fmd use in both in vitro and in vivo assays.

The present invention relates to the provision of a recombinant AIM that maintains functions, does not multimerize, and is not inactivated by IgM (e.g., a protein containing an amino acid sequence wherein cysteine at amino acid number 168 of the amino acid sequence shown in SEQ ID NO: 1 is substituted with another amino acid, and the like).

The present invention provides soluble RAGE-Fc fusion proteins with increased stability and extended half-life capable of binding endogenous RAGE ligands with high apparent affinity. The present invention also provides methods of making and using stable, soluble RAGE-Fc fusion proteins. These soluble RAGE-Fc fusion proteins are useful as therapeutics based on their ability to bind endogenous RAGE ligands.

The present invention relates to the field of manufacturing of Natural Killer (NK) Cells genetically modified with viral vectors carrying a polynucleotide coding for a Chimeric Antigen Receptors (CARs). The present invention further relates to CAR-NK cells obtained with the method and use of the CAR-NK cells in medicine, in particular for use in a method of treating cancer.

The disclosure provides modified NK cells and pharmaceutical compositions comrpsing the same. The disclosure also provides methods of treating cancer using the same.

The present disclosure provides modified looped proteins comprising at least one looped region, wherein the at least one looped region comprises a cell penetrating peptide (CPP). In some embodiments, the present disclosure provides polynucleotides encoding the modified looped proteins and methods for their production.

The present invention relates to compositions and methods for using a minibody. Minibodies described herein comprise a secretion signal, a variable heavy chain fragment, a variable light chain fragment, a constant chain fragment, and a hinge domain between the variable light chain fragment and the constant chain fragment. One aspect includes a nucleic acid encoding a minibody. Other aspects include compositions comprising a minibody and a modified T cell comprising a nucleic acid encoding a minibody. Also included are methods and pharmaceutical compositions comprising the modified T cells for adoptive therapy and treating a condition, such as cancer.