The present invention relates to methods and pharmaceutical composition for the treatment of T-helper type 2 (Th2)-mediated diseases. More particularly, the present invention relates to an inhibitor of the Suv39h1-HP1a silencing pathway for use in the treatment of a T-helper type 2 (Th2)-mediated disease, in particular allergic asthma.

The invention relates to biomarkers in children's skin, in particular in the skin of infants, the expression of which changes when the skin is affected by atopic dermatitis. Such markers are particularly advantageous in that they allow the skin's response to atopic dermatitis to be monitored. The inventors have developed methods for evaluating the in vitro efficacy of formulations in preventing the effects of atopic dermatitis on a child's skin, using a skin model specifically capable of reproducing the characteristics of children's skin.

Methods and compositions are provided for the selective activation of a BMP-dependent response in certain cell types. Methods include identifying a ligand or ligand combinations as well as cell receptor profiles that result in selectively activating a ligand-dependent response through interactions with ligand receptors on a first cell type that do not activate the ligand-dependent response in a second cell type.

The invention provides methods for treating pathological conditions associated with an undesirable inflammatory component. The invention is generally directed to reducing inflammation by administering cells that modulate microglia activation. The invention is also directed to drug discovery methods to screen for agents that modulate the ability of the cells to modulate microglia activation. The invention is also directed to cell banks that can be used to provide cells for administration to a subject, the banks comprising cells having desired levels of potency to modulate microglia activation.

Compounds of the present invention and pharmaceutically acceptable compositions thereof, are useful as modulators of ATP-Binding Cassette (“ABC”) transporters or fragments thereof, including Cystic Fibrosis Transmembrane Conductance Regulator (“CFTR”). The present invention also relates to methods of treating ABC transporter mediated diseases using compounds of the present invention.

Provided herein are methods to identify TCR-recognizing cancer-specific antigens, and TCR-engineered T cells having antigen-specific cytotoxic activity. Provided herein are engineered T lymphocytes produced by the methods described herein. Provided herein are methods of treating cancer in a subject comprising administering the engineered T lymphocytes described herein. Provided herein are antibodies, or fragments thereof, produced by the methods described herein. Provided herein are methods of treating cancer in a subject comprising administering the antibodies described herein to a subject. In some embodiments, the therapeutic compositions (e.g., engineered lymphocytes, antibodies, etc.) and methods herein are provided as part of a kit or system.

A Ligand-guided-Selection (LIGS) method for identifying highly specific aptamers against a predetermined antigen of a target is provided. LIGS uses a stronger and highly specific bivalent binder (e.g. an antibody) interacting with its cognate antigen to displace specific aptamers from an enriched SELEX pool. Elution of the displaced aptamers provides aptamers that are specific to the predetermined antigen.

The present invention relates to an antibody specifically binding the carboxymethylated catalytic subunit of protein phosphatase 2A (PP2Ac). Also provided are diagnostic uses of said antibody and screening methods employing the inventive antibody.

Disclosed in the present application is a method for constructing an antigen-specific binding polypeptide gene display vector. The method comprises processing by using a restriction endonuclease that specifically recognizes a restriction site to obtain four nucleic acid fragments having specific sticky ends, and then enabling the nucleic acid fragments to directionally ligate. Further disclosed in the present application are an antigen-specific binding polypeptide gene display vector produced according to the method and a bacterial library. The method described in the present application can be used for effectively screening antigen-specific antigen-binding polypeptides or fragments thereof.

The present invention provides phase separation sensors capable of targeting or associating with one or more biomolecular condensate or membraneless compartment in cells. The phase separation sensors comprise at least two domains wherein a first domain comprises one or more accessory protein or molecule and a second domain comprises an artificial client protein or intrinsically disordered sequence. The artificial client protein possesses intrinsic disorder and is capable of engaging in ultra-weak phase separation-specific interactions with one or more component protein or molecule in a biomolecular condensate. Methods and applications utilizing the sensors are provided including targeting, detecting, visualizing, manipulating, monitoring a biomolecular condensate and delivering one or more functional protein, label, drug or agent to a biomolecular condensate.