The present disclosure relates to compositions and methods for targeting expression of exogenous genes to platelets. In particular, the present disclosure relates to treatment of hemophilia and other diseases and conditions by targeting expression of exogenous agents (e.g., clotting factors) to platelets.

Methods for identifying patients susceptible to treatment with checkpoint inhibitors are provided herein. Also provided are reagents for analyzing T cell responses for understanding resistance to checkpoint inhibitor therapy and understanding therapeutics for overcoming that resistance. Therapeutic strategies, for instance, for treating cancer, are also provided.

The invention relates to C to N cyclized (C-N cyclic) monomer and dimer peptide molecules, as well as peptide dimers which are connected by linker moieties at the N terminus and the C terminus of each peptide subunit, which inhibit binding of 47 to the mucosal addressin cell adhesion molecule (MAdCAM) in vivo, and show high selectivity against 41 binding.

Described herein are hybrid nanoparticles that are exosomes loaded with one or more nanoparticle dendrimers. Also included are pharmaceutical compositions including the hybrid nanoparticles and methods of making the hybrid nanoparticles. Also described is a method of treating a human subject by administering to the human subject the above-described hybrid nanoparticles.

The present disclosure relates to compositions and methods for targeting expression of exogenous genes to platelets. In particular, the present disclosure relates to treatment of hemophilia and other diseases and conditions by targeting expression of exogenous agents (e.g.. clotting factors) to platelets.

A human lung cancer marker N3G4, and use of the same as human lung cancer marker is disclosed. Hybridoma cells which produce anti-N3G4 monoclonal antibodies, and the secreted monoclonal antibody LC128, and use of LC128 for the preparation of a diagnostic agent for lung cancer are also disclosed. Kits for in vitro diagnosis comprising the monoclonal antibody LC128 and methods for detecting tumor markers in lung tissue by using the monoclonal antibody LC128 are also disclosed.

The present disclosure relates to compositions and methods for targeting expression of exogenous genes to platelets. In particular, the present disclosure relates to treatment of hemophilia and other diseases and conditions by targeting expression of exogenous agents (e.g., clotting factors) to platelets.

The invention relates to C to N cyclized (C-N cyclic) monomer and dimer peptide molecules, as well as peptide dimers which are connected by linker moieties at the N terminus and the C terminus of each peptide subunit, which inhibit binding of 47 to the mucosal addressin cell adhesion molecule (MAdCAM) in vivo, and show high selectivity against 41 binding.

Integrin ?5?1-binding polypeptides are disclosed having an amino acid sequence at least 50% identical to the amino acid sequence selected from SEQ ID NO:1-14, or selected from SEQ ID NO:11-14, not including any insertions, wherein residues 8-10 relative to the reference polypeptide are RGD, and their use for treating cancer, vascular disease, rheumatoid arthritis, and diseases associated with pathogenic angiogenesis.

Alveolar-like macrophages and a method for generating alveolar-like macrophages from hemangioblasts is provided. The method comprises the steps of: i) culturing the hemangioblasts in a hematopoietic-inducing medium comprising vascular endothelial growth factor (VEGF), stem cell factor (SCF) and interleukin-3 (IL-3) for a sufficient period of time to generate macrophages, and ii) culturing the macrophages in an alveolar macrophage-inducing medium comprising granulocyte macrophage colony stimulating factor (GM-CSF), and optionally macrophage colony stimulating factor (M-CSF), under suitable conditions and for a sufficient period of time to yield alveolar-like macrophages.