The invention relates to novel multi-modality probes for imaging, tracking and analyzing stem cells and related biological samples, and methods of preparation and use thereof. The molecular probes of the invention are constructed, for example, by utilizing (a) the high selectivity of long hydrocarbon chains for binding to plasma membranes of cells, (b) a near-infrared (NIR) dye for optical imaging, and (c) a radionuclide for PET or SPECT imaging. The in vitro and in vivo data of the optical and radiolabeled probes demonstrated their utility for detecting the presence of stem cells with multiple imaging modalities.

A method of detecting and isolating cells that produce a secreted protein of interest (POI) that has an immunoglobulin CH3 domain and/or substituted CH3 domain, comprising: a) constructing a cell line transiently or stably expressing a cell surface capture molecule, which binds the POI, by transfecting the cell line with a nucleic acid that encodes such cell surface capture molecule; b) transfecting said cell simultaneously or subsequently with a second nucleic acid that encodes a POI wherein such POI is secreted; c) detecting the surface-displayed POI by contacting the cells with a detection molecule, which binds the POI; and d) isolating cells based on the detection molecule.

The present invention provides combinations of specific binding proteins, such as immunoglobulins, that are designed to be true combinations, essentially all components of the combination being functional and compatible with each other. The invention further provides a method for producing a composition comprising at least two different proteinaceous molecules comprising paired variable regions, the at least two proteinaceous molecules having different binding specificities, comprising paired variable regions, at least two proteinaceous molecules having different binding specificities, comprising contacting at least three different variable regions under conditions allowing for pairing of variable regions and harvesting essentially all proteinaceous molecules having binding specificities resulting from the pairing.

The invention relates to detecting cell biomarker signatures and integrated cell biomarker-morphological profiles by detecting resonance-light scattering of functionalized nanoparticles.

The present specification provides an antibody for pure isolation of vascular endothelial cells and a preparation method thereof, the antibody comprising: a heavy chain variable domain and a light chain variable domain which specifically bind to an extracellular matrix domain of PECAM1 having an amino acid sequence of SEQ ID NO: 1; or a heavy chain variable domain and a light chain variable domain which specifically bind to an extracellular matrix domain of CDH5 having an amino acid sequence of SEQ ID NO: 2.

Provided are methods employing antibodies directed against the signal peptide (SP) domain of various disease-associated polypeptides. These anti-SP antibodies detect cell surface expression of these SP domains and are used in methods of diagnosis and/or therapy. Provided is a method for determining the suitability for treatment of a subject suffering from a disease, whereby detection of cell surface expression of a specific SP indicates that the subject would benefit from therapy directed against this SP. Further, provided are methods for diagnosis of diseases based on the detection of endogenously produced anti-SP antibodies.

Engineered multivalent and multispecific binding proteins, methods of making, and their uses in the prevention, diagnosis, and/or treatment of disease are provided.

SUSD2 protein is used as a marker in identification, selection or separation of pancreatic internal secretion precursor cells and/or newborn pancreatic internal secretion cells; and a use of an mRNA, for encoding the SUSD2 protein, of a precursor protein as the marker in identification of the pancreatic internal secretion precursor cells and/or the newborn pancreatic internal secretion cells. Analysis of gene expression of pancreatic endoderm cells sourced by induced directional differentiation of human pluripotent stem cells finds the enrichment expression of a SUSD2 gene in the pancreatic internal secretion precursor cells and the newborn pancreatic internal secretion cells. A protein encoded by the SUSD2 gene is a receptor protein on cell membranes. Using the protein as the marker, the identification, the selection or the separation of the pancreatic internal secretion precursor cells and the newborn pancreatic internal secretion cells can be conducted.

Embodiments of the invention are generally directed to analyte detection and products facilitating the collection, separation of sample components, and analyte detection. The multilayer device that allows for a rapid, easy, accurate, and efficient test of a fluid sample for analytes of interest and methods of collecting, separating components, and testing using the multilayer device are described in various embodiments of the invention.

The instant disclosure describes a method for measuring and reporting vascularity in a biological tissue sample. The method generally includes: within a digital image of a tissue section, (i) identifying endothelial cells, lymphatic cells, or a combination thereof; (ii) mapping one or more proximity regions, each of the proximity regions defining an area between detected vessels and a first distance outwardly therefrom; and (iii) calculating one or more of: a vessel proximity score or a hypoxia score, wherein the vessel proximity score relates a composition of objects within the proximity regions, and wherein the hypoxia score relates a composition of tissue within or outside of the proximity regions, respectively.