Abstract: Presented are RNA nucleotide sequences referred to as EXO-Codes, and longer RNA polynucleotides that contain the EXO-Codes. EXO-Codes provide RNA with the ability to a) be selectively sorted to extracellular vesicles such as exosomes, and b) deliver a variety of cargo types to program or reprogram the extracellular vesicles, and cells that receive the exosomes. Also presented are methods of making the EXO-Codes, modifying cells using the EXO-Codes, expression vectors encoding the EXO-Codes, and exosomes and other secreted vesicles that include RNA polynucleotides that contain the EXO-Codes.

Abstract: Provided are RNA polynucleotide sequences referred to as “EXO-Codes.” The RNA polynucleotides comprise one or more nucleotide sequences that facilitate preferential enrichment of secreted membranous vesicles that contain the EXO-Codes. Nucleotide motifs that contribute to these properties of the EXO-Codes are described. Modified eukaryotic cells comprising EXO-Codes are provided, and include lymphocytes such as T cells. EXO-Codes may comprise a cargo that provides a prophylactic or therapeutic effect. Exosome preparations comprising the EXO-codes are provided. Pharmaceutical compositions comprising EXO-Codes, expression vectors encoding them, and methods of using the pharmaceutical formulations are provided. The pharmaceutical compositions may comprise the EXO-Codes within membranous structures, such as exosomes. Cells that express or otherwise include the EXO-Codes are included, as are method for separating membranous structures that contain the EXO-codes from the cells.

Abstract: Provided are composition comprising antibodies directed to the N-terminal domain of CXCR4. The antibody may be a scFv and can be fused to a RNA binding peptide. The fusion protein can be complexed to RNAi, such as micro RNA. The complexes can be used for targeting delivery of RNAi molecules to CXCR4 expressing cancer cells, as well as inhibiting the binding of CXCR4 to CXCL12.

Abstract: Provided herein are single chain variable fragment antibodies that are directed against N-terminal or extracellular loop regions of CCR2. The scFvs can be used alone or in combination to modify macrophage number and migration and to reduce the growth of tumors.

Abstract: Presented are RNA nucleotide sequences referred to as EXO-Codes, and longer RNA polynucleotides that contain the EXO-Codes. EXO-Codes provide RNA with the ability to a) be selectively sorted to extracellular vesicles such as exosomes, and b) deliver a variety of cargo types to program or reprogram the extracellular vesicles, and cells that receive the exosomes. Also presented are methods of making the EXO-Codes, modifying cells using the EXO-Codes, expression vectors encoding the EXO-Codes, and exosomes and other secreted vessices that include RNA polynucleotides that contain the EXO-Codes.

Abstract: In various embodiments, the present invention provides zwitterionic lipids, encapsulants incorporating these zwitterionic lipids and such encapsulants encapsulating one or more bioactive agent. An exemplary bioactive agent is a nucleic acid. Also provided are pharmaceutical formulations of the encapsulants and methods of using such formulations to deliver a bioactive agent to a subject in treating or diagnosing disease in that subject.

Abstract: In various embodiments, the present invention provides zwitterionic lipids, encapsulants incorporating these zwitterionic lipids and such encapsulants encapsulating one or more bioactive agent. An exemplary bioactive agent is a nucleic acid. Also provided are pharmaceutical formulations of the encapsulants and methods of using such formulations to deliver a bioactive agent to a subject in treating or diagnosing disease in that subject.

Abstract: The invention relates to composite materials comprising polymer nanofibers and polymer nanoparticles, wherein at least one of the two polymer materials is loaded with a substance selected from therapeutic and diagnostic agents. Fibers and nanoparticles can comprise identical or different polymers; the polymer materials are, however, biocompatible in every case. Therapeutic and diagnostic agents can be hydrophilic or lipophilic and the two polymer materials likewise. The at least one polymer material and the substance with which said material is loaded are either both hydrophilic or both lipophilic. The polymer nanoparticles of the composite materials have a diameter of 10 nm to 600 nm. The polymer fibers have diameters of 10 nm to 50 ?m and lengths of 1 ?m to several meters. The invention further relates to a method for producing said composite materials.