Disclosed are methods of treating an individual, for example, a human individual, or more particularly a pediatric individual, having a disease characterized by liver fibrosis, comprising administering a therapeutically effective amount of one or both of a Complement Factor B inhibitor and a Complement Factor P (“CFP” or “properdin”) inhibitor, e.g., anti-CFP antibody and/or anti-CFB antibody or the respective antigen-binding fragment(s) thereof. Exemplary disease states include, but are not limited to, biliary atresia and post-Kasai biliary atresia.

Disclosed are methods of treating an individual, for example, a human individual, or more particularly a pediatric individual, having a disease characterized by liver fibrosis, comprising administering a therapeutically effective amount of one or both of a Complement Factor B inhibitor and a Complement Factor P (“CFP” or “properdin”) inhibitor, e.g., anti-CFP antibody and/or anti-CFB antibody or the respective antigen-binding fragment(s) thereof. Exemplary disease states include, but are not limited to, biliary atresia and post-Kasai biliary atresia.

Described herein are bispecific antibodies simultaneously targeting both CHI3L1 and the immune checkpoint molecule CTLA4. These antibodies manifest enhanced synergistic cytotoxic effects compared to the effects of individual CHI3L1 and CTLA4 antibodies, alone or in combination. Methods of treating tumors, including lung and brain tumors by administering the bispecific antibodies described herein are also provided.

Described herein are bispecific antibodies simultaneously targeting both CHI3L1 and the immune checkpoint molecule CTLA4. These antibodies manifest enhanced synergistic cytotoxic effects compared to the effects of individual CHI3L1 and CTLA4 antibodies, alone or in combination. Methods of treating tumors, including lung and brain tumors by administering the bispecific antibodies described herein are also provided.

The present disclosure provides novel and improved IL-15 fusion proteins for use in the treatment of cancer and other disorders. In various embodiments, the fusion proteins of the invention have two functional domains: an IL-15/IL-15RαSushi domain (also referred to herein as an “IL-15/IL-15RαSushi complex”) and an antibody domain, each of which can take different forms, and configured such that the IL-15 is fused to the C-terminal of the antibody domain and co-expressed and non-covalently complexed with IL-15RαSushi. Importantly, the fusions proteins of the present invention address several of the limitations observed with the IL-15 therapeutics evaluated to date; specifically, the fusion proteins demonstrate extended the half-life of IL-15 in vivo, and demonstrate optimized preclinical activity compared to rIL-15 or related cytokine therapeutics.

Isolated anti-IDE antibodies are provided. Each of the antibodies comprise an antigen recognition domain comprising the indicated CDR amino acid sequences. Methods of producing same, methods of using same, pharmaceutical compositions comprising same and articles of manufacture are also provided.

Isolated anti-IDE antibodies are provided. Each of the antibodies comprise an antigen recognition domain comprising the indicated CDR amino acid sequences. Methods of producing same, methods of using same, pharmaceutical compositions comprising same and articles of manufacture are also provided.

Sized-based detection techniques for detection of bio-nanoparticles are described. Detection nanoparticles and methods of forming the detection nanoparticles that can be utilized in the techniques are described. Detection nanoparticles can include modified bacteriophage that express a linking agent for a specific binding agent. Detection nanoparticles can bind a functional bio-nanoparticle with high specificity through specific binding of one or more entities unique to the functional bio-nanoparticle of interest. A detection nanoparticle can target an entity of a bio-nanoparticle that is relevant to its function, and as such, the methods can provide improvements in detection of complete and functional bio-nanoparticles. Size-based detection regimes can include particle displacement measurement techniques based upon Brownian motion.

Antibodies and antigen-binding fragments thereof that bind C1s and inhibit C1s activity and modulate the activity of at least one component in the classical pathway (CP) of complement activation, and methods for treating complement-mediated disorders using anti-C1s antibodies and fragments, are provided.

The present application relates to recombinant antibodies that are engineered to alter interactions between the antibodies and one or more endogenous lipases of a host cell used to produce the antibodies. In some cases, the antibodies are mutated in the heavy chain constant region, such as at CH1, CH2, and/or CH3. In other cases, the antibodies are mutated to alter their glycosylation profile.