Abstract: Peptide-immuno-oncology agent complexes (“peptide-I/O complexes”) that can home, target, migrate to, are directed to, are retained by, accumulate in, penetrate, or bind to the tumor microenvironment, tumor tissues, or cells or compartments or cytosol of cells thereof, or any combination thereof, are disclosed. Additionally disclosed are peptide-I/O complexes that can cross the blood-brain barrier. Pharmaceutical compositions and uses for peptide-I/O complexes comprising such peptides are also disclosed. Such compositions can be formulated for targeted delivery of an immuno-oncology agent (“I/O”) to the tumor microenvironment. Targeted compositions of the disclosure can deliver peptide-I/O complexes to target regions, tissues, structures or cells targeted by the peptide.

Abstract: Peptides that home, target, migrate to, are directed to, are retained by, or accumulate in and/or bind to the cartilage or kidney of a subject are disclosed. Pharmaceutical compositions and uses for peptides or peptide-active agent complexes comprising such peptides are also disclosed. Such compositions can be formulated for targeted delivery of an active agent to a target region, tissue, structure or cell in the cartilage. Targeted compositions of the disclosure can deliver peptide or peptide-active agent complexes to target regions, tissues, structures, or cells targeted by the peptide.

Abstract: Truncated, variant, or mutated peptides that home, target, migrate to, are directed to, are retained by, or accumulate in and/or bind to the cartilage or kidney of a subject are disclosed. Pharmaceutical compositions and uses for truncated or mutated peptides or truncated or mutated peptide-active agent complexes comprising such peptides are also disclosed. Such compositions can be formulated for targeted delivery of an active agent to a target region, tissue, structure or cell in the cartilage. Targeted compositions of the disclosure can deliver truncated or mutated peptide or truncated, variant, or mutated peptides or peptide-active agent complexes to target regions, tissues, structures or cells targeted by the peptide.

Abstract: Peptides that home, target, migrate to, are directed to, are retained by, or accumulate in and/or bind to the cartilage or kidney of a subject are disclosed. Pharmaceutical compositions and uses for peptides or peptide-active agent complexes comprising such peptides are also disclosed. Such compositions can be formulated for targeted delivery of an active agent to a target region, tissue, structure or cell in the cartilage. Targeted compositions of the disclosure can deliver peptide or peptide-active agent complexes to target regions, tissues, structures, or cells targeted by the peptide.

Abstract: Peptide-immuno-oncology agent complexes (“peptide-I/O complexes”) that can home, target, migrate to, are directed to, are retained by, accumulate in, penetrate, or bind to the tumor microenvironment, tumor tissues, or cells or compartments or cytosol of cells thereof, or any combination thereof, are disclosed. Additionally disclosed are peptide-I/O complexes that can cross the blood-brain barrier. Pharmaceutical compositions and uses for peptide-I/O complexes comprising such peptides are also disclosed. Such compositions can be formulated for targeted delivery of an immuno-oncology agent (“I/O”) to the tumor microenvironment. Targeted compositions of the disclosure can deliver peptide-I/O complexes to target regions, tissues, structures or cells targeted by the peptide.

Abstract: Compositions, formulations and kits comprising chlorotoxin conjugate compounds are provided, including native and modified variants of chlorotoxin peptide conjugated to reporter molecules including fluorescent dyes. Methods of detecting and treating cancers and tumors with chlorotoxin conjugate compounds are also provided, including methods of imaging tumor tissues and cells. Dosing and pharmacokinetic profiles for therapeutic and diagnostic applications using chlorotoxin conjugate compounds are also provided.

Abstract: Peptides that home, target, migrate to, are directed to, are retained by, or accumulate in and/or bind to the cartilage or kidney of a subject are disclosed. Pharmaceutical compositions and uses for peptides or peptide-active agent complexes comprising such peptides are also disclosed. Such compositions can be formulated for targeted delivery of an active agent to a target region, tissue, structure or cell in the cartilage. Targeted compositions of the disclosure can deliver peptide or peptide-active agent complexes to target regions, tissues, structures, or cells targeted by the peptide.

Abstract: Compositions, formulations and kits comprising chlorotoxin conjugate compounds are provided, including native and modified variants of chlorotoxin peptide conjugated to reporter molecules including fluorescent dyes. Methods of detecting and treating cancers and tumors with chlorotoxin conjugate compounds are also provided, including methods of imaging tumor tissues and cells. Dosing and pharmacokinetic profiles for therapeutic and diagnostic applications using chlorotoxin conjugate compounds are also provided.

Abstract: Methods and systems for discovering drug candidates are disclosed. Methods and systems can include generating libraries of potential drug candidates (e.g., libraries of peptides) that can be screened to identify sub-libraries of potential drug candidates (e.g., sub-libraries of peptides) having selected pharmacological properties. Methods of making and using peptide libraries are also provided. D-amino acid chlorotoxins and D-amino acid chlorotoxin variants are also provided.

Abstract: Methods and systems for discovering drug candidates are disclosed. Methods and systems can include generating libraries of potential drug candidates (e.g., libraries of peptides) that can be screened to identify sub-libraries of potential drug candidates (e.g., sub-libraries of peptides) having selected pharmacological properties. Methods of making and using peptide libraries are also provided. D-amino acid chlorotoxins and D-amino acid chlorotoxin variants are also provided.

Abstract: Systematic chemical analysis of glycosphingolipid (GSL) fractions from large quantities of normal human neutrophils and HL60 cells failed to detect GSL's which are binding targets of selectin. A series of long-chain, unbranched polylactosamine GSL's with a terminally sialylated, internally polyfucosylated structure bind selectins.

Abstract: A method for determining susceptibility to E. coli urinary tract infection comprising assaying a sample of epithelial cells for the presence or absence of at least one of Le.sup.a, sialosyl galactosyl-globoside, disialosyl galactosyl-globoside and an extended globo structure carrying the same terminal epitopes as Le.sup.a, sialosyl galactosyl-globoside or disialosyl galactosyl-globoside or assaying a sample of vaginal secretions for the presence or absence of at least one of sialosyl galactosyl-globoside or disialosyl galactosyl-globoside, and detecting the presence or absence of the at least one of Le.sup.

Abstract: An oven for electronics manufacturing including a heated chamber having openings at each end to the ambient environment wherein heated air is circulated by a centrally located fan to pass over workpieces in a substantially upward (or downward) flow. Equal temperatures at the entrance and exit ends of the heated chamber are promoted by a crossover air return arrangement in which a portion of the air from each end of the heated chamber is mixed with the air from the other end of the chamber as the circulating air is drawn into the fan for recirculation. In addition, a moveable shutter mechanism is provided at the entrance end and exit end of the heated chamber to adjust the air flow at the ends of the heated chamber. The shutter mechanism operates to selectively close off an adjustable portion of the heated air flow at the ends of the heated chamber.

Abstract: A process for preparing difucosyl Y.sub.2 antigen (dimeric Le.sup.x) , said process comprising: (1) preparing a lactonorhexaosylceramide backbone or a lactonorhexaosylsaccharide backbone linked to a carrier molecule; and (2) enzymatically fucosylating said backbone at the III.sup.3 and V.sup.3 positions through an .alpha.1.fwdarw.3 linkage. A process for preparing Le.sup.y antigen analogues, said process comprising: (1) preparing a lactonorhexaosyl-ceramide backbone or a lactonorhexaosylsaccharide backbone linked to a carrier molecule; and (2) enzymatically fucosylating said backbone at the terminal .beta.-Gal through an .alpha.1.fwdarw.2 linkage; and (3) enzymatically fucosylating said backbone at one or more positions through an .alpha.1.fwdarw.3 linkage, provided that steps (2) and (3) can be conducted simultaneously or in any order.