In certain aspects, the disclosure provides multispecific binders (e.g., ActRIIA:TβRII heteromultimers comprising an ActRIIA polypeptide and a TfiRU polypeptide). The disclosure further provides that such multispecific binders (e.g., ActRIIA:TβRII heteromultimer) may be used to treat various disorders or conditions.

This document relates to methods and materials for targeted expansion of immune effector (Eff) T cells. For example, a composition containing one or more amino acid chains (e.g., one or more single-chain antibody/cytokine fusion proteins (immunocytokines)) that can bind to a heterodimeric receptor including an interleukin-2 receptor-β (IL-2Rβ) polypeptide and a common gamma chain (γ.sub.c) polypeptide (e.g., an IL-2Rβ/γ.sub.c polypeptide complex) can be administered to a mammal to stimulate Effs within the mammal to activate an immune response in that mammal. In some cases, methods and materials that can be used to treat a mammal having a condition that can benefit from activating an immune response (e.g., a cancer and/or an infectious disease) are provided. For example, a composition containing one or more single-chain immunocytokines that can bind to an IL-2Rβ/γ.sub.c polypeptide complex can be administered to a mammal having a cancer and/or an infectious disease to treat the mammal.

The present disclosure provides T-cell modulatory multimeric polypeptides (T-Cell-MMP) and their epitope conjugates comprising at least one immunomodulatory polypeptide (“MOD”) that may be selected to exhibit reduced binding affinity to a cognate co-immunomodulatory polypeptide (“Co-MOD”). The epitope may be, for example, a cancer-associated epitope, an infectious disease-associated epitope, or a self-epitope. The T-Cell-MMP-epitope conjugates are useful for modulating the activity of a T-cell by delivering immunomodulatory peptides, such as IL-2 or IL-2 variants that exhibit reduced binding affinity for the IL-2R, to T-cells in an epitope selective/specific manner, and accordingly, for treating individuals with a cancer, infectious disease or autoimmune disorder.

The present invention relates to engineered extra-cellular vesicle internalizing receptors that have the ability to enhance uptake, processing, and presentation to T-cells of tumor-associated antigens by an antigen-presenting cell. It further relates to vectors or antigen presenting cells expressing said receptors, composition and uses thereof for the prevention and/or treatment of a cancer.

The invention relates to a polypeptide comprising a C3 convertase effector domain, a C5 convertase effector domain and optionally a terminal complex inhibitory effector domain which is resistant to deregulation by physiologic FHR-Proteins and has a dimerization motif, and to its therapeutic use.

The present invention is directed to novel targeted heterodimeric fusion proteins comprising an IL-15/IL-15Rα Fc-fusion protein and a TIM-3 antibody fragment-Fc fusion protein.

Provided herein are protein contrast agents and targeted protein contrast agents, formulations thereof, and methods of use, including but not limited to, as a magnetic resonance imaging contrast agent.

Embodiments of immunogens comprising a recombinant Mumps (MuV) F ectodomain trimer stabilized in a prefusion conformation or a recombinant Measles (MeV) F ectodomain trimer stabilized in a prefusion conformation are provided. Also provided are embodiments of immunogens comprising chimeric proteins comprising the recombinant MuV or MeV F ectodomain trimer and one or more MuV HN or MeV H ectodomains. Also disclosed are nucleic acids encoding the immunogens and methods of their production. Methods for inducing an immune response in a subject by administering a disclosed immunogen to the subject are also provided. In some embodiments, the immune response treats or inhibits MuV and/or MeV infection in a subject.

Disclosed are a chimeric antigen receptor (CAR) targeting CLD18A2, and preparation method and use thereof. The extracellular binding region of the CAR comprises a protein specifically recognizing CLD18A2. The immune effector cell modified by the CAR can be used to treat tumors such as pancreatic cancer and stomach cancer.

The present invention relates to antagonist antibodies of the human calcitonin gene-related peptide (CGRP) receptor as well as bispecific antigen binding proteins derived from the anti-CGRP antibodies that bind to and inhibit both the human CGRP receptor and another target, such as the human pituitary adenylate cyclase activating polypeptide type I receptor (PAC1) receptor. Pharmaceutical compositions comprising the anti-CGRP receptor antibodies and bispecific antigen binding proteins as well as methods for producing them are also disclosed. Methods of using the anti-CGRP receptor antibodies and bispecific antigen binding proteins to ameliorate, treat, or prevent conditions associated with the CGRP and PAC1 receptors, such as chronic pain, migraine, and cluster headache, are also described.