The present invention provides a pharmaceutical composition comprising an antibody which binds specifically to human TLR7 or monkey TLR7 and does not bind to mouse TLR7 or rat TLR7, and has an activity of inhibiting a function of human TLR7 or monkey TLR7, and the like.

Provided herein are antibodies that specifically bind Tau and methods of using the same.

A method for assessing the risk of potential adverse effects for a human patient receiving is provided. The method comprises determining the total B count in the patient, and identifying a B cell number indicative of a patient at risk of potential adverse effects from the antibody. The method further provides a dosing schedule for administering the antibody to the patient identified as at risk of potential adverse effects. Also provided is a pharmaceutical package or kit comprising a first dose and a second dose, and optionally a third dose, the CD19×CD3 bispecific antibody as defined in the methods/dosage regimen of the disclosure.

The present invention provides novel full-length human antibodies that bind to human Fc epsilon-R1 alpha (monospecific antibodies). The present invention also provides novel bispecific antibodies (bsAbs) that bind to both Fc epsilon-R1 alpha and CD3 and activate T cells via the CD3 complex in the presence of Fc epsilon-R1 alpha-expressing cells. The bispecific antigen-binding molecules of the invention are useful for the treatment of diseases and disorders in which an upregulated or induced Fc epsilon-R1 alpha-targeted immune response is desired and/or therapeutically beneficial. For example, the bispecific antibodies of the invention are useful for the treatment of allergies, including anaphylaxis.

Described herein are methods for producing and utilizing an alternative signal 1 domain to construct an optimally signaling CAR. Alternative signal 1 domains of the present technology are based on alternatives to CD3ζ, including mutated ITAMs from CD3ζ (which contains 3 IT AM motifs), truncations of CD3ζ, and alternative splice variants known as CD3s, CD3 theta, and artificial constructs engineered to express fusions between CD3s or CD30 and CD3ζ. CAR polypeptides comprising alternative signal 1 domains are utilized to engineer CAR T cells. Further, this technology related to methods of treating cancer by administering to a subject in need thereof CAR T cells comprising alternative signal 1 domains.

This invention relates to inhibition of the complement signaling using an anti-C5 antibody. Specifically, the invention relates to methods of treating a complement-mediated disease or complement-mediated disorder in an individual by contacting the individual with an anti-C5 antibody.

A novel human bladder cancer marker AG-CD71 and a monoclonal antibody ABC71 for preventing AG-CD71 are provided. The human bladder cancer marker AG-CD71 is an abnormal glycosylated transferrin receptor TFRC; the abnormal glycosylated transferrin receptor TFRC refers to the TFRC carrying a saccharide structure Fucal-4(GlcNAcbl-3)[6OSO3]GlcNAc as an epitope. Also provided is an antibody for the human bladder cancer marker AG-CD71; the antibody is the monoclonal antibody ABC71 specific for the human bladder cancer AG-CD71; the monoclonal antibody is secreted from the hybridoma cell strain the preservation number of which is CGMCC No. 14312.

The invention relates to anti-EGF like domain multiple 6 antibody (anti-EGFL6 antibody) and cancer detection (or diagnosis) and treatment using the anti-EGFL6 antibody. The present invention creates anti-EGFL6 antibodies, particularly, a single-chain antibody fragments (scFv) and humanized antibody, which have ability in binding to EGFL6 and in inhibiting angiogenesis and cancer cell growth.

This disclosure features methods and compositions for treating diseases of the gastrointestinal tract with an immunomodulator.

The present invention relates to antibodies having specificity to HER4 and uses thereof, which are able to induce biased 4ICD routing/signaling. The inventors have isolated by antibody phage display three fully human anti-HER4 single-chain variable antibody fragment (scFv), selected on human HER4 extracellular domain, referred as C6 mAb, D5 mAb and F4 mAb and one fully human anti-HER4 scFv named H2 mAb, selected on NRG 1β1-stimulated EGFR/HER4 JMaCYT1-transfected NIH3T3 cells. In particular, the present invention relates to an isolated anti-HER4 antibody, wherein said antibody binds to an epitope of the HER4 protein.