Methods of using polypeptides to modulate transforming growth factor-? (TGF?) signaling (e.g., TGF? receptors, antibodies or antigen-binding fragments thereof that specifically bind TGF? or a TGF? receptor) are provided. Compositions comprising the antibodies or fragments thereof and methods of using the same for treatment of diseases involving TGF? activity are provided. Nucleic acids, recombinant expression vectors, host cells, antigen binding fragments, and pharmaceutical compositions comprising these antigen binding agents and fragments thereof are also disclosed. The invention also provides therapeutic methods for utilizing the TGF? signaling modulators are provided herein.

The invention provides compositions and methods for administering a therapeutic agent to a patient, such as pharmaceutical compositions containing a blood product and a therapeutic agent selected from an anthracycline anti-cancer agent (e.g., doxorubicin), a topoisomerase inhibitor, an oxazaphosphinanyl anti-cancer agent, a nitro-aryl anti-cancer agent, a thiol-reactive functional-group agent, a nitric oxide modulator, a platinum-based antineoplastic compound, acrylamide, acrylonitrile, bis(4-fluorobenzyl)trisulfide, a cardiac glycoside, an anti-mitotic agent (e.g., paclitaxel), a nucleoside analog, an EGFR inhibitor, or an anti-microbial agent.

The present disclosure provides compositions and methods for the delivery of immune cells to treat un-resectable or non-resected tumor cells and tumor relapse. The compositions comprise (i) a structure comprising an injectable polymer or scaffold comprising pores; (ii) lymphocytes disposed within the structure, (iii) at least one lymphocyte-adhesion moiety associated with the structure; and (iv) at least one lymphocyte-activating moiety associated with the structure, and optionally an immune stimulant.

Compounds, compositions, and methods for use in inhibiting the E3 enzyme Cbl-b in the ubiquitin proteasome pathway are disclosed. The compounds, compositions, and methods can be used to modulate the immune system, to treat diseases amenable to immune system modulation, and for treatment of cells in vivo, in vitro, or ex vivo. Also disclosed are pharmaceutical compositions comprising a Cbl-b inhibitor and a cancer vaccine, as well as methods for treating cancer using a Cbl-b inhibitor and a cancer vaccine; and pharmaceutical compositions comprising a Cbl-b inhibitor and an oncolytic virus, as well as methods for treating cancer using a Cbl-b inhibitor and an oncolytic virus.

A transdermal delivery system of microneedles containing a bioactive material, comprising at least one layer of a support material; at least one biodegradable needle associated with the support material, each needle comprising at least one biodegradable polymer and at least one sugar, wherein each biodegradable needle is hollow and is adapted to retain a bioactive material.

Natural Killer (NK) cells and NK cell lines are modified to increase cytotoxicity, wherein the cells and compositions thereof have a use in the treatment of cancer. Modified NK cells and NK cell lines are produced via genetic modification of CD38.sup.low NK cells to transiently express the Fc receptor CD16 (F158V) from mRNA introduced into the NK cell, rather than from a chromosomal coding sequence. The cytotoxicity of the modified NK cells against CD38-expressing cancer cells is increased by administration of these modified cells in combination with a CD38-binding antibody. Separately, cytotoxicity against breast cancer is exhibited by the modified NK cells in combination with

Herceptin.

A cancer killer cell in which a therapeutic recombinant protein or recombinant protein which improves cytotoxic activity of the cancer killer cell is loaded. In addition, a pharmaceutical composition including the recombinant protein or a recombinant protein-loaded cancer killer cell is disclosed. Further, disclosed is a method for preparing a recombinant protein-loaded cancer killer cell.

The present invention relates to compositions and transpapillary methods of adoptive cell therapy for the treatment of subjects having or at risk of having breast disorders.

Provided herein are populations of modified NK-92 cells, compositions and kits comprising the cells, and methods of making and using the populations of cells.

Provided herein are methods and compositions for enhancing an immune response and/or for the treatment of an immune-related condition in an individual, e.g., cancer, comprising killing, disabling, or depleting non-stimulatory myeloid cells using an antigen binding protein such as an antibody or antigen binding fragment thereof.