Described herein is a nanoparticle system including a multivalent nanoparticle core having a plurality of β-hairpin peptides conjugated thereto. Also included are pharmaceutical compositions and methods of making the nanoparticle system. Further included are immunotherapy methods including administering the nanoparticle system to a subject in need thereof, such as a human cancer patient.

Described herein is a nanoparticle system including a multivalent nanoparticle core having a plurality of β-hairpin peptides conjugated thereto. Also included are pharmaceutical compositions and methods of making the nanoparticle system. Further included are immunotherapy methods including administering the nanoparticle system to a subject in need thereof, such as a human cancer patient.

Among other things, the present disclosure provides compounds comprising antibody binding moieties and CD38-binding targeting moieties. In some embodiments, provided compounds recruit various types of antibodies to diseased cells such as cancer cells, and induce immune activities to kill such cells. Provided technologies are useful for treating various diseases including cancer.

Treatments for cancer include miriplatin assembled into an ultra-small dot (uPtD) and/or lomitapide or a pharmaceutically-acceptable salt thereof. The uPtD and/or lomitapide can be encapsulated in a nanoparticle for administration to a subject. Some embodiments further include paclitaxel or a pharmaceutically-acceptable salt thereof.

Treatments for cancer include miriplatin assembled into an ultra-small dot (uPtD) and/or lomitapide or a pharmaceutically-acceptable salt thereof. The uPtD and/or lomitapide can be encapsulated in a nanoparticle for administration to a subject. Some embodiments further include paclitaxel or a pharmaceutically-acceptable salt thereof.

The present invention relates to a targeting module comprising a chemically synthesized peptide binding moiety specific for a human cell surface protein or protein complex, a kit comprising the targeting module and a vector or a cell comprising a nucleic acid encoding a universal chimeric antigen receptor and the use for the treatment of cancer, infections and autoimmune disorders.

The present invention relates to a targeting module comprising a chemically synthesized peptide binding moiety specific for a human cell surface protein or protein complex, a kit comprising the targeting module and a vector or a cell comprising a nucleic acid encoding a universal chimeric antigen receptor and the use for the treatment of cancer, infections and autoimmune disorders.

Formulated and/or co-formulated nanocarriers (e.g., LNPs and/or SLNPs) comprising ICD Prodrugs and methods of making the nanocarriers are disclosed herein. The ICD prodrug compositions comprise a drug moiety, a lipid moiety, and linkage unit that induce immunogenic cell death (ICD). The ICD Prodrugs can be formulated and/or co-formulated into a nanocarrier to provide a method of treating cancer, immunological disorders, and other disease by utilizing a targeted drug delivery vehicle.

The present invention generally relates to particles such as nanoparticles and, in particular, to targeted nanoparticles. In some cases, the particles may have a targeting moiety that is inhibited from recognizing a target, for example, by being positioned within the particle at an internal location. The application of a stimulus, such as light, may allow the targeting moiety to interact externally of the particle. Accordingly, the particles may be targeted to specific locations using the application of a suitable stimulus. For instance, in one embodiment, particles containing cell-penetrating peptides attached via a first attachment and a second attachment containing a photocleavable entity may be administered to a subject, and light may be applied, e.g., to the eye, to cleave the photocleavable entity. However, despite the cleavage, the peptides remain associated with the particle via the first attachment, and thus, the particles may be able to penetrate cells within the eye due to peptides. Other aspects are generally directed to methods of making or using such particles, kits involving such particles, or the like.

The present invention generally relates to particles such as nanoparticles and, in particular, to targeted nanoparticles. In some cases, the particles may have a targeting moiety that is inhibited from recognizing a target, for example, by being positioned within the particle at an internal location. The application of a stimulus, such as light, may allow the targeting moiety to interact externally of the particle. Accordingly, the particles may be targeted to specific locations using the application of a suitable stimulus. For instance, in one embodiment, particles containing cell-penetrating peptides attached via a first attachment and a second attachment containing a photocleavable entity may be administered to a subject, and light may be applied, e.g., to the eye, to cleave the photocleavable entity. However, despite the cleavage, the peptides remain associated with the particle via the first attachment, and thus, the particles may be able to penetrate cells within the eye due to peptides. Other aspects are generally directed to methods of making or using such particles, kits involving such particles, or the like.