Abstract: The disclosure relates to binding proteins, including antibodies, that bind to Programmed Death-1 (“PD-1”) and T cell immunoreceptor with Ig and ITIM domains (“TIGIT”). The disclosure also provides compositions comprising such binding proteins and nucleic acid molecules encoding such binding proteins. The disclosure further relates to methods of treating a disorder or condition using such binding proteins.

Abstract: Methods, systems, and devices for providing computer implemented services are disclosed. To provide the computer implemented services, the quantity of hardware resources available for providing the computer implemented services may be modified. The quantity of hardware resources may be modified by adding removable cards to a host system. When the removable card is added, a removable attachment element may be used to secure the removable card in place and maintain operable connection between the host system and the removable card.

Abstract: Provided herein are methods of treating cancer in a human subject, comprising administering to the subject: i) an antibody-drug conjugate (ADC) comprising an antibody, a cleavable linker and a cytotoxic agent, and ii) a bispecific checkpoint inhibitor. Further provided herein are kits comprising i) an antibody-drug conjugate (ADC) comprising an antibody, a cleavable linker and a cytotoxic agent, and ii) a bispecific checkpoint inhibitor.

Abstract: The present disclosure provides anti-CD73 binding molecules, e.g., antibodies and antigen binding fragments thereof. Also provided are pharmaceutical formulations comprising the disclosed compositions, and methods for the diagnosis and treatment of diseases associated with CD73-expression, e.g., cancer. Such diseases can be treated, e.g., by direct therapy with the anti-CD73 binding molecules disclosed herein (e.g., naked antibodies or antibody-drug conjugates that bind CD73), by adjuvant therapy with other antigen-binding anticancer agents such as immune checkpoint inhibitors (e.g., anti-CTLA-4 and anti-PD-1 monoclonal antibodies), and/or by combination therapies where the anti-CD73 molecules are administered before, after, or concurrently with chemotherapy.

Abstract: The present disclosure relates to techniques for developing artificial intelligence algorithms by distributing analytics to multiple sources of privacy protected, harmonized data. Particularly, aspects are directed to a computer implemented method that includes receiving an algorithm and input data requirements associated with the algorithm, identifying data assets as being available from a data host based on the input data requirements, curating the data assets within a data storage structure that is within infrastructure of the data host, and integrating the algorithm into a secure capsule computing framework. The secure capsule computing framework serves the algorithm to the data assets within the data storage structure in a secure manner that preserves privacy of the data assets and the algorithm. The computer implemented method further includes running the data assets through the algorithm to obtain an inference.

Abstract: The present disclosure relates to techniques for developing artificial intelligence algorithms by distributing analytics to multiple sources of privacy protected, harmonized data. Particularly, aspects are directed to a computer implemented method that includes receiving an algorithm and input data requirements associated with the algorithm, identifying data assets as being available from a data host based on the input data requirements, curating the data assets within a data storage structure that is within infrastructure of the data host, and integrating the algorithm into a secure capsule computing framework. The secure capsule computing framework serves the algorithm to the data assets within the data storage structure in a secure manner that preserves privacy of the data assets and the algorithm. The computer implemented method further includes running the data assets through the algorithm to obtain an inference.

Abstract: The present invention relates in part to novel drug delivery particles comprising an anionic polymer matrix and a cationic polymer, wherein the anionic polymer matrix and cationic polymer together form drug delivery particles bound by electrostatic interactions and wherein the drug delivery particles comprise at least one biologically active agent. The invention also relates in part to a method of treating a mycobacterial infection using said drug delivery particles, and a method of making said drug delivery particles.

Abstract: Human monoclonal antibodies directed against B7-H1 and uses of these antibodies in diagnostics and for the treatment of diseases associated with the activity and/or expression of B7-H1 are disclosed. Additionally, hybridomas or other cell lines expressing such antibodies are disclosed.

Abstract: The present disclosure relates to techniques for developing artificial intelligence algorithms by distributing analytics to multiple sources of privacy protected, harmonized data. Particularly, aspects are directed to a computer implemented method that includes receiving an algorithm and input data requirements associated with the algorithm, identifying data assets as being available from a data host based on the input data requirements, curating the data assets within a data storage structure that is within infrastructure of the data host, and integrating the algorithm into a secure capsule computing framework. The secure capsule computing framework serves the algorithm to the data assets within the data storage structure in a secure manner that preserves privacy of the data assets and the algorithm. The computer implemented method further includes running the data assets through the algorithm to obtain an inference.

Abstract: Provided is a method for treating cancer by administering to an individual who has the cancer a MAD1 peptide. The peptide can enhance the effect of a chemotherapeutic agent that is administered to the individual in combination with the peptide.

Abstract: The present invention relates in part to novel drug delivery particles comprising an anionic polymer matrix and a cationic polymer, wherein the anionic polymer matrix and cationic polymer together form drug delivery particles bound by electrostatic interactions and wherein the drug delivery particles comprise at least one biologically active agent. The invention also relates in part to a method of treating a mycobacterial infection using said drug delivery particles, and a method of making said drug delivery particles.

Abstract: The disclosure relates to binding proteins, including antibodies, that bind to Programmed Death-1 (“PD-1”) and T cell immunoreceptor with Ig and ITIM domains (“TIGIT”). The disclosure also provides compositions comprising such binding proteins and nucleic acid molecules encoding such binding proteins. The disclosure further relates to methods of treating a disorder or condition using such binding proteins.

Abstract: The present disclosure relates to techniques for developing artificial intelligence algorithms by distributing analytics to multiple sources of privacy protected, harmonized data. Particularly, aspects are directed to a computer implemented method that includes receiving an algorithm and input data requirements associated with the algorithm, identifying data assets as being available from a data host based on the input data requirements, curating the data assets within a data storage structure that is within infrastructure of the data host, and integrating the algorithm into a secure capsule computing framework. The secure capsule computing framework serves the algorithm to the data assets within the data storage structure in a secure manner that preserves privacy of the data assets and the algorithm. The computer implemented method further includes running the data assets through the algorithm to obtain an inference.

Abstract: The present disclosure provides anti-CD73 binding molecules, e.g., antibodies and antigen binding fragments thereof. Also provided are pharmaceutical formulations comprising the disclosed compositions, and methods for the diagnosis and treatment of diseases associated with CD73-expression, e.g., cancer. Such diseases can be treated, e.g., by direct therapy with the anti-CD73 binding molecules disclosed herein (e.g., naked antibodies or antibody-drug conjugates that bind CD73), by adjuvant therapy with other antigen-binding anticancer agents such as immune checkpoint inhibitors (e.g., anti-CTLA-4 and anti-PD-1 monoclonal antibodies), and/or by combination therapies where the anti-CD73 molecules are administered before, after, or concurrently with chemotherapy.

Abstract: Human monoclonal antibodies directed against B7-H1 and uses of these antibodies in diagnostics and for the treatment of diseases associated with the activity and/or expression of B7-H1 are disclosed. Additionally, hybridomas or other cell lines expressing such antibodies are disclosed.

Abstract: The present disclosure provides methods of altering engagement between T-cell immunoglobulin and mucin domain containing protein-3 (TIM-3) and phosphatidylserine (PS) in a subject. Also provided are methods of treatment using TIM-3 binding protein wherein the TIM-3 binding domain specifically binds to the C?C? and DE loops of the immunoglobulin variable (IgV) domain of TIM-3.

Abstract: The present invention relates in part to novel drug delivery particles comprising an anionic polymer matrix and a cationic polymer, wherein the anionic polymer matrix and cationic polymer together form drug delivery particles bound by electrostatic interactions and wherein the drug delivery particles comprise at least one biologically active agent. The invention also relates in part to a method of treating a mycobacterial infection using said drug delivery particles, and a method of making said drug delivery particles.

Abstract: The disclosure generally provides proteins that bind two epitopes (e.g., a first and a second epitope) and that are bivalent for binding to each of the first and second epitopes. The disclosure also provides for specific binding proteins, including antibodies, which bind to a target protein. The disclosure also provides compositions comprising such proteins, nucleic acid molecules encoding such proteins and methods of making such proteins. The disclosure provides methods of inducing an immune response in a subject as well as methods for treating or preventing cancer in a subject by administering the proteins, nucleic acid molecules and/or compositions to the subject.

Abstract: The disclosure generally provides proteins that bind two epitopes (e.g., a first and a second epitope) and that are bivalent for binding to each of the first and second epitopes. The disclosure also provides for specific binding proteins, including antibodies, which bind to a target protein. The disclosure also provides compositions comprising such proteins, nucleic acid molecules encoding such proteins and methods of making such proteins. The disclosure provides methods of inducing an immune response in a subject as well as methods for treating or preventing cancer in a subject by administering the proteins, nucleic acid molecules and/or compositions to the subject.

Abstract: The disclosure generally provides proteins that bind two epitopes (e.g., a first and a second epitope) and that are bivalent for binding to each of the first and second epitopes. The disclosure also provides for specific binding proteins, including antibodies, which bind to a target protein. The disclosure also provides compositions comprising such proteins, nucleic acid molecules encoding such proteins and methods of making such proteins. The disclosure provides methods of inducing an immune response in a subject as well as methods for treating or preventing cancer in a subject by administering the proteins, nucleic acid molecules and/or compositions to the subject.