The present invention relates to methods and reagents for use in site-selective modification of proteins having lysine residues with functionalized peptides using a chemoenzymatic microbial transglutaminase-mediated reaction. The functionalized proteins may be used for study or therapeutic uses.

A process for the preparation of beads including a biocompatible hydrophobic polymer, a perfluorocarbon, polyvinylalcohol and optionally a metal compound, including the steps of: adding the perfluorocarbon and optionally the metal compound to a solution of the biocompatible hydrophobic polymer in a polar solvent to provide a first liquid mixture, adding the first liquid mixture to an aqueous solution of a biocompatible surfactant including polyvinylalcohol under sonication to obtain a second liquid mixture, a) maintaining the sonication of the second liquid mixture while cooling, b) evaporating the polar solvent from the second liquid mixture to obtain a suspension of beads including the biocompatible hydrophobic polymer, the perfluorocarbon and optionally the metal compound, c) separating the beads from the suspension and preparing a water suspension of the beads and d) freeze-drying the water suspension to obtain the beads, wherein the addition of the first liquid mixture to the biocompatible surfactant in step b) is performed within a period of at most 10 seconds, wherein the sonication in step b) and the sonication in step c) are performed directly into the liquid mixtures by for example a probe or flow sonicator at an amplitude of at least 120 μm for 0.01-10 minutes and wherein the weight ratio of the biocompatible surfactant to the biocompatible hydrophobic polymer is at least 3:1. Beads having close F—H2O interactions, which are suitable for imaging purposes.

Dual-modality contrast agents are disclosed herein, having the general formula:

##STR00001##

R.sub.1 includes a chelating moiety that is chelated to a Mn.sup.2+ isotope. The disclosed contrast agents differentially target a wide range of malignant tumor tissues, and can be simultaneously used as contrast agents for both magnetic resonance imaging (MRI) and positron emission topography (PET) imaging. Accordingly, the disclosed contrast agent can be used in diagnosing and monitoring solid tumor cancers.

The present invention discloses indicator fluids, reference indicator fluid, and usage thereof, and systems and methods for assessing movement of molecular substances within, to or from a cerebrospinal fluid, brain or spinal cord compartment of a human cranio-spinal cavity. Indicator fluid moving from the cerebrospinal fluid compartment enables measurements of levels of indicator fluid in blood or urine and assessment of the cranio-spinal cavity's ability to remove molecular substances. The indicator fluids may be contrast agents used for imaging, such as by computed tomography imaging, and magnetic resonance imaging, or imaging utilizing radioactive substances by positron emission tomography, single-photon emission computed tomography or scintigraphy. Using these imaging modalities, the invention describes indicator fluids, systems and methods enabling assessment of movement of substances within, to or from a cerebrospinal fluid, brain or spinal cord compartment of a cranio-spinal cavity, and from the human cranio-spinal cavity to lymphatic pathways or kidneys.

Fibronectin type III domains (FN3) that specifically bind to CD8A, related polynucleotides capable of encoding CD8A-specific FN3 domains, cells expressing the FN3 domains, as well as associated vectors, and detectably labeled FN3 domains are useful in therapeutic and diagnostic applications.

Monoclonal antibodies that bind, such as specifically bind, blood protein factor XII (FXII) are described. The monoclonal antibodies (including antigen-binding fragments thereof) are capable of forming immune complexes with human FXII and inhibiting FXII activity, resulting in safe anti-inflammatory and anti-thrombotic effects.

Ligand-bimodal nanoparticle conjugates capable of crossing the blood-brain barrier are disclosed. Methods of making and using the conjugates also are disclosed. The bimodal nanoparticle includes a polymeric matrix, one or more magnetic particles disposed within the polymeric matrix or conjugated to an outer surface of the polymeric matrix, and a dye disposed within the polymeric matrix. A ligand for a blood-brain barrier amino acid transporter is conjugated to the outer surface of the bimodal nanoparticle.

The present invention provides compounds, compositions, and methods for detecting, diagnosing and treating cancers such as glioblastoma multiforme.

Provided are compounds and compositions for targeting macrophages and other mannose-binding c-type lectin receptor high expressing cells and methods of treatment and diagnosis using such compounds and compositions.

The present invention pertains to a novel liposome-based contrast agent that is for suppressing absorption in the reticuloendothelial system and for tumor-specific delivery of a radiolabeled substance. More specifically, the present invention pertains to: a liposome contrast agent containing a lipid and a compound of chemical formula 1, which is a radiolabeled substance, the liposome contrast agent being characterized in that the lipid is composed of (a) cholesterol, (b) 1,2-dipalmitoyl-sn-glycero-3-phosphocholine (DPPC), and (c) 1,2-distearoyl-sn-glycero-3-phosphoethanolamine-N [methoxy(polyethylene glycol)-2000] (DSPE-PEG2000); and a cancer diagnostic composition containing the liposome contrast agent as an active ingredient. If a liposome system, containing a contrast substance of chemical formula 1 having a unique lipid composition provided by the present invention, is manufactured, the tumor-to-organ uptake ratio of the contrast substance in the reticuloendothelial system increases significantly, thus greatly increasing the tumor diagnostic efficiency of the compound of chemical formula 1.