Provided are receptor tyrosine kinase-like orphan receptor 1 (ROR1)-binding molecules, in particular, to human antibodies specific for ROR1, including antibody fragments. The present disclosure further relates to recombinant receptors, including chimeric antigen receptors (CARs) that contain such antibodies or fragments, and polynucleotides that encode the antibodies, antigen-binding fragments or receptors specific for ROR1. The disclosure further relates to genetically engineered cells, containing such ROR1-binding proteins and receptors, and related methods and uses thereof in adoptive cell therapy.

Provided herein are binding molecules to tumor associated macrophages and associated methods for the treatment and detection of cancer.

The present invention relates to novel variants of human BMP7 protein. The invention embodies vectors and host cells for the propagation of nucleic acid sequences encoding said proteins and the production thereof. Also disclosed are methods for the treatment of cancer, cartilage damage and degeneration, pain associated with osteoarthritis, or bone healing.

The invention provides dosage regimes for treatment of synucleinopathies. In one regime, a subject receives 3000-5000 mg of an antibody intravenously every 3-5 weeks. In another regime, a subject receives 1300-1700 mg of an antibody intravenously every 3-5 weeks.

Provided herein are, inter alia, methods of identifying agents that are capable inhibiting the binding (e.g., coupling) between a ROR1 protein and a ROR2 protein. By interfering with ROR1-ROR2 coupling (binding) the agents identified using the methods provided herein inhibit non-canonical Wnt5a signaling. Thus, the agents identified by the methods provided herein may, inter alia, be useful for cancer diagnosis and therapy.

Described herein are compositions that include monoclonal antibodies that specifically bind Hsp90 and methods of using the same to treat HIF-1-overexpressing cancer. In some embodiments, the cancers are breast cancer or lung cancer. The monoclonal antibodies bind the epitope TKPIWTRNP in Hsp90 or VKHFSVEGQ in Hsp90.

Fibronectin type III (.sup.10Fn3) binding domains having novel designs that are associated with reduced immunogenicity are provided. The application describes alternative .sup.10Fn3 binding domains in which certain immunogenic regions are not modified when producing a binder in order to maintain recognition as a self antigen by the host organism. The application also describes .sup.10Fn3 binding domains in which HLA anchor regions have been destroyed thereby reducing the immunogenic contribution of the adjoining region. Also provided are .sup.10Fn3 domains having novel combinations of modified regions that can bind to a desired target with high affinity.

Disclosed herein are novel compositions and methods for the treatment of age-related diseases, mitochondrial diseases, the improvement of stress resistance, the improvement of resistance to hypoxia and the extension of life span. Also described herein are methods for the identification of agents useful in the foregoing methods.

Methods and compositions are provided for the treatment of diseases or disorders associated with mitochondrial dysfunction.

Fibronectin type III (.sup.10Fn3) binding domains having novel designs that are associated with reduced immunogenicity are provided. The application describes alternative .sup.10Fn3 binding domains in which certain immunogenic regions are not modified when producing a binder in order to maintain recognition as a self antigen by the host organism. The application also describes .sup.10Fn3 binding domains in which HLA anchor regions have been destroyed thereby reducing the immunogenic contribution of the adjoining region. Also provided are .sup.10Fn3 domains having novel combinations of modified regions that can bind to a desired target with high affinity.

Fibronectin type III (.sup.10Fn3) binding domains having novel designs that are associated with reduced immunogenicity are provided. The application describes alternative .sup.10Fn3 binding domains in which certain immunogenic regions are not modified when producing a binder in order to maintain recognition as a self antigen by the host organism. The application also describes .sup.10Fn3 binding domains in which HLA anchor regions have been destroyed thereby reducing the immunogenic contribution of the adjoining region. Also provided are .sup.10Fn3 domains having novel combinations of modified regions that can bind to a desired target with high affinity.