Abstract: Described herein are novel compositions, targeted therapeutic methods, and assays for neutralizing and/or inhibiting the activity of “oxazole-containing (OxC) compounds,” to prevent or delay the onset of epithelial barrier dysfunction and chronic inflammation associated with various disorders, such as colitis.

Abstract: Provided herein, in some aspects, are compositions and methods to inhibit AFP interactions with ?2M and/or Class I-related molecule interactions in diseases or disorders where elevated AFP levels are associated with immunosuppression. Also provided herein, in some aspects, are compositions and methods to enhance or potentiate AFP interactions with ?2M and/or Class I-related molecule in diseases or disorders with decreased AFP levels or diseases or disorders where increasing AFP levels is desired to increase immunosuppression or enhance organ regeneration.

Abstract: The technology described herein relates to compositions and methods for enhancing the immune response and/or reducing T cell tolerance in a subject. In some embodiments, the technology described herein relates to administering inhibitors of two or more of CEACAM1, PD1, and/or LAP to, e.g., synergistically reduce T cell tolerance.

Abstract: The invention provides, inter alia, immunoinhibitory glycosphingolipids and immunoinhibitory alpha-galactosylceramides and compositions and preparations thereof, and methods of use thereof including in the treatment of conditions characterized by increased iNKT cells and/or activity.

Abstract: The invention provided herein includes isolated polypeptides that specifically block the interaction between neonatal Fc receptor (FcRn) and albumin. Blocking the interaction treats diseases and conditions caused by increased amounts of albumin or modified albumin that possesses pathogenic properties wherein it is deemed desirable to decrease albumin levels. Accordingly, also provided are methods of using these isolated polypeptides to treat various diseases and conditions caused by increased amounts of albumin or modified albumin that possesses pathogenic properties. The invention provided herein also includes isolated polypeptides capable of binding to a non-IgG and non-albumin competitive site on an FcRn alpha 3 domain. These can be useful for tracking FcRn without inhibiting IgG or albumin binding or function. Accordingly, the invention also includes methods and systems to track FcRn without inhibiting IgG or albumin binding or function.

Abstract: Described herein are compositions for increasing IL-12 production comprising IgG or a fragment thereof or a variant thereof and uses of said compositions for treating cancer and infectious diseases. Also described herein are compositions for decreasing IL-12 production comprising an agent that inhibits signaling mediated by interaction between FcRn and IgG and uses of said compositions for treating autoimmune diseases. Further described herein are methods for assessing efficacy of treatment by monitoring levels of various cytokines in the subject.

Abstract: Provided herein are recombinant antibodies and antigen-binding portions thereof useful for binding to FcRn and blocking binding of FcRn to human serum albumin. The FcRn-binding proteins can be used to treat a variety of disorders including acute and chronic toxic exposure.

Abstract: Described herein are compositions and methods for modulating immune response, which can be upregulated or down regulated by enhancement or inhibition of interactions between CEACAM family members and TIM family members.

Abstract: Provided herein are recombinant antibodies and antigen-binding portions thereof useful for binding to FcRn and blocking binding of FcRn to IgG Fc. The FcRn-binding proteins can be used to treat a variety of disorders including autoimmune disorders.

Abstract: The invention provided herein includes isolated polypeptides that specifically block the interaction between neonatal Fc receptor (FcRn) and albumin. Blocking the interaction treats diseases and conditions caused by increased amounts of albumin or modified albumin that possesses pathogenic properties wherein it is deemed desirable to decrease albumin levels. Accordingly, also provided are methods of using these isolated polypeptides to treat various diseases and conditions caused by increased amounts of albumin or modified albumin that possesses pathogenic properties. The invention provided herein also includes isolated polypeptides capable of binding to a non-IgG and non-albumin competitive site on an FcRn alpha 3 domain. These can be useful for tracking FcRn without inhibiting IgG or albumin binding or function. Accordingly, the invention also includes methods and systems to track FcRn without inhibiting IgG or albumin binding or function.

Abstract: Described herein are compositions for increasing IL-12 production comprising IgG or a fragment thereof or a variant thereof and uses of said compositions for treating cancer and infectious diseases. Also described herein are compositions for decreasing IL-12 production comprising an agent that inhibits signaling mediated by interaction between FcRn and IgG and uses of said compositions for treating autoimmune diseases. Further described herein are methods for assessing efficacy of treatment by monitoring levels of various cytokines in the subject.

Abstract: Described herein are compositions and methods for modulating immune response, which can be upregulated or down regulated by enhancement or inhibition of interactions between CEACAM family members and TIM family members.

Abstract: Receptor-targeted nanoparticles (R-NPs) are provided for selective transport into and through targeted tissues of therapeutic, prophylactic and diagnostic agents. R-NPs can include polymeric particle, lipid particles, inorganic particles, or a combination thereof with a targeting moiety selective for binding to a receptor on the cells where the agent is to be delivered, where the receptor mediates transcytosis of the nanoparticle into and through the cells. In a preferred embodiment, the targeting moiety is the neonatal Fc receptor. Examples demonstrate Fc-targeted nanoparticles which are actively transported across the intestinal epithelium, providing a route for the oral delivery of nanoparticle encapsulated active agents including peptides such as insulin.

Abstract: Provided herein are recombinant monoclonal antibodies and antigen-binding portions thereof useful in inhibiting CEACAM1 in tumor cells, and methods of their use in anti-tumor proliferation and invasiveness therapies, such as the treatment of cancer, particularly pancreatic cancer.

Abstract: The invention provided herein includes isolated polypeptides that specifically block the interaction between neonatal Fc receptor (FcRn) and albumin. Blocking the interaction treats diseases and conditions caused by increased amounts of albumin or modified albumin that possesses pathogenic properties wherein it is deemed desirable to decrease albumin levels. Accordingly, also provided are methods of using these isolated polypeptides to treat various diseases and conditions caused by increased amounts of albumin or modified albumin that possesses pathogenic properties. The invention provided herein also includes isolated polypeptides capable of binding to a non-IgG and non-albumin competitive site on an FcRn alpha 3 domain. These can be useful for tracking FcRn without inhibiting IgG or albumin binding or function. Accordingly, the invention also includes methods and systems to track FcRn without inhibiting IgG or albumin binding or function.

Abstract: Provided herein are MiIP-Seq assays and methods for detecting and/or identifying an immune-stimulating microbe in a patient sample. Also provided herein are methods for diagnosing an infectious disease or identifying a previously uncharacterized microbe in a patient sample. The methods and assays described herein are advantageous over existing methods in that they (i) do not require a culture step for microbe expansion, (ii) are not specific for a particular microbe and can be used to identify a previously uncharacterized microbe, and (iii) permits rapid processing due to the lack of a microbe culture step.

Abstract: Described herein are methods, assays and systems for selecting subjects with immune-mediated diseases who would optimally respond to anti-FcRn therapies and administering effective amounts of compositions comprising anti-FcRn agents for treating, inhibiting and/or reducing the symptoms of immune-mediated diseases in subjects.

Abstract: As demonstrated herein, soluble human FcRn binds to AFP with affinities greater than observed with albumin, and is able to interfere with FcRn-mediated protection of and functional associations with IgG. Accordingly, provided herein, in some aspects, are compositions and methods to inhibit FcRn and AFP interactions in diseases or disorders where elevated AFP levels are associated with immunosuppression. Also provided herein, in some aspects, are compositions and methods to enhance or potentiate FcRn and AFP interactions in diseases or disorders with decreased AFP levels or diseases or disorders where increasing AFP levels increasing with immunosuppression.

Abstract: Provided herein are recombinant monoclonal antibodies and antigen-binding portions thereof useful in inhibiting CEACAM1 in tumor cells, and methods of their use in anti-tumor proliferation and invasiveness therapies, such as the treatment of cancer, particularly pancreatic cancer.

Abstract: Receptor-targeted nanoparticles (R-NPs) are provided for selective transport into and through targeted tissues of therapeutic, prophylactic and diagnostic agents. R-NPs can include polymeric particle, lipid particles, inorganic particles, or a combination thereof with a targeting moiety selective for binding to a receptor on the cells where the agent is to be delivered, where the receptor mediates transcytosis of the nanoparticle into and through the cells. In a preferred embodiment, the targeting moiety is the neonatal Fc receptor. Examples demonstrate Fc-targeted nanoparticles which are actively transported across the intestinal epithelium, providing a route for the oral delivery of nanoparticle encapsulated active agents including peptides such as insulin.