Described herein are prostate specific membrane antigen (PSMA) binding conjugates that are useful for delivering therapeutic, diagnostic and imaging agents. Also described herein are pharmaceutical composition containing them and methods of using the conjugates and compositions. Also described are processes for manufacture of the conjugates and the compositions containing them.

Compounds of Formula IA, IB, II, III, IV, and/or V are described herein along with their methods of use. A compound of the present invention may cross-link under physiological conditions and/or in vivo.

Poly(amidoamine) [PAMAM] dendrimers for use as PSMA-targeted contrast agents for optical and photoacoustic imaging (PA) and theranostic agents for treating prostate cancer are disclosed.

A fulvestrant pharmaceutical composition, a preparation method therefor, and an application thereof are provided. The fulvestrant pharmaceutical composition contains fulvestrant solid particles. The particle size of the fulvestrant solid particles satisfies that Dv(10) is selected from 0.400 micrometers to 6.000 micrometers, Dv(50) is selected from 0.700 micrometers to 6.000 micrometers, and Dv(90) is selected from 1.000 micrometers to 6.000 micrometers, provided that Dv(10) is not 0.400 micrometers, Dv(50) is not 0.700 micrometers, and Dv(90) is not 1.000 micrometers. The fulvestrant pharmaceutical composition has a long-acting sustained release.

The present invention relates to compositions and methods employing conjugates that include a self-assembly and disassembly (SADA) polypeptide and a binding domain. The present invention encompasses the recognition that conjugates with a SADA polypeptide have certain improved biological properties. SADA-conjugates are described, along with uses thereof (e.g., as therapeutic or diagnostic agents) and methods of manufacture.

The disclosure provides nanoemulsion compositions and methods of making and using thereof to deliver a bioactive agent such as a nucleic acid to a subject. The nanoemulsion composition comprises a hydrophobic core based on inorganic nanoparticles in a lipid nanoparticle that allows imaging as well as delivering nucleic acids. Methods of using these particles for treatment and vaccination are also provided.

A peptide derivative selected from a list of peptide derivatives with a sequence derived from human serum albumin fragment EPI-X4 is provided, which binds to CXCR4 with about 1000-fold stronger efficiency than EPI-X4. The peptide derivatives comprise length variants as well as modifications by length variants, D-amino acids, coupling of fatty acids, cholesterol or polymers, acetyl substitutions of amino groups, amination of carboxyl groups. Further provided are pharmaceutical compositions of the peptide derivative.

Described herein are liposome-based nanocarriers that selectively target bone marrow, minimize tumor delivery, and maintain high drug concentrations in bone marrow when compared to conventional systemic delivery. The composition of the liposome-based nanocarriers may also be tuned to selectively target lymph nodes and other reticuloendothelial system organs (e.g., spleen, e.g., liver). Also described herein are methods of imaging and mapping the bone marrow and/or other reticuloendothelial system organs using the described liposome-based nanocarriers. These methods provide high resolution non-invasive and quantitative imaging via PET, which offers advantages over conventional imaging/tracking methods. Furthermore, in certain embodiments, the liposome-based carriers are used to stabilize and deliver radioprotectant/free radical scavenger drugs to the bone marrow, thereby protecting the bone marrow from subsequent radiation exposure, thereby limiting the adverse impact of radiation exposure on the individual.

The disclosure provides nanoemulsion compositions and methods of making and using thereof to deliver a bioactive agent such as a nucleic acid to a subject. The nanoemulsion composition comprises a hydrophobic core based on inorganic nanoparticles in a lipid nanoparticle that allows imaging as well as delivering nucleic acids. Methods of using these particles for treatment and vaccination are also provided.

The present invention relates to compositions and methods employing conjugates that include a self-assembly and disassembly (SADA) polypeptide and a binding domain. The present invention encompasses the recognition that conjugates with a SADA polypeptide have certain improved biological properties. SADA-conjugates are described, along with uses thereof (e.g., as therapeutic or diagnostic agents) and methods of manufacture.