The present application provides stable peptide-based antibody capture agents and methods of use as detection and diagnosis agents. The application further provides methods of manufacturing antibody capture agents using iterative on-bead in situ click chemistry.

The present application provides stable peptide-based antibody capture agents and methods of use as detection and diagnosis agents. The application further provides methods of manufacturing antibody capture agents using iterative on-bead in situ click chemistry.

An isolated or a synthetic targeting peptide comprising an amino acid sequence that is at least 90% identical to SEQ ID NO: 8 is disclosed. The targeting peptide may be conjugated to a component selected from the group consisting of polymeric micelles, lipoprotein-based drug carriers, nanoparticle drug carriers, a chemotherapeutic agent, a micelle, a liposome, dendrimers, a polymer, a lipid, an oligonucleotide, a peptide, a polypeptide, a protein, a prostate cancer cell, a stem cell, and an imaging agent. Also disclosed are a kit for imaging and detecting the presence of prostate cancer cells in vivo or in vitro, and a composition for treating prostate cancer, inhibiting prostate cancer cell growth, inducing prostate cancer cell cytotoxicity, and/or increasing the survival rate in a prostate cancer patient.

A teicoplanin derivative useful for treating an infectious disease, having the structure of formula (I): ##STR00001##
or the pharmaceutically acceptable salt, solvate, stereoisomer, derivative or prodrug thereof. In an exemplary compound of formula (I), R.sub.1 is ##STR00002##
R.sub.2 is H, R.sub.3 is —N(CH.sub.3).sub.2, and R.sub.4 is H.

The present disclosure relates to novel pharmaceutical compositions comprising recombinantly engineered probiotic bacteria that can be used, inter alia, in the treatment of gastrointestinal inflammatory diseases and epithelial barrier function disorders. The probiotic bacteria preferably contain a nucleic acid encoding the heterodimeric protein of SEQ ID NO:1 and 2, or homologous sequences thereof sharing at least 80% identity with said sequences. In some embodiments, the pharmaceutical compositions described herein have particular application in the treatment or prevention of disease states associated with abnormally permeable epithelial barriers as well as inflammatory bowel diseases or disorders.

The invention relates to a glycoprotein-toxic pay-load molecule conjugate, a toxic payload molecule-glycan conjugate, and a pharmaceutical composi-tion. The invention further relates to a method for preparing the glycoprotein-toxic payload molecule conjugate, the method for modulating growth of a cell population and a method of treating tu-mour cells.

Preclinical data obtained in models of chemotherapy-induced mucositis, radiation-induced mucositis, neutropenic infection and colitis indicate oral mucositis is a promising indication for Innate Defense Regulator (IDR) peptides. Preclinical efficacy results obtained with IDRs in mouse and hamster models of mucositis indicate that dosing every third day should be able to cover the mucositis “window” with seven to fourteen doses, depending on the duration of chemotherapy or radiation exposure. IDRs have also shown efficacy in mouse models of chemotherapy-induced oral and gastrointestinal mucositis, consistent with the response of the innate immune response to chemotherapy and/or radiation damage. IDRs are also effective at reducing bacterial burden and improve survival in the presence or absence of antibiotic treatment in various murine infection models.

The preparation of water dispersible ceramide conjugates and derivatives of sphingolipid analogues is described. The conjugates and analogues are prepared by reacting a succinimidyl carbonate of a β-Ala derivative with the primary amine of a functionalised spacer. Despite their dispersibility in water, the ceramide conjugates and derivatives of sphingolipid analogues spontaneously incorporate into the plasma membranes of cells.

The present invention relates to a GRP78-derived peptide for screening highly efficient stem cells and the use thereof, and more particularly, to screening highly efficient stem cells using, as a marker, a GRP78-derived peptide capable of binding to the binding domain of GRP78 protein on the cell surface. According to the present invention, the GRP78-derived peptide comprising only a specific amino acid sequence capable of recognizing highly efficient stem cells, among the amino acid sequence of GRP78, makes it possible to screen only non-senescent young stem cells. In addition, when stem cells are treated with the GRP78-derived peptide or the GRP78-derived peptide is introduced into stem cells, the efficiency of the stem cells can be increased. Thus, the GRP78-derived peptide is useful for the production of stem cell therapy products having excellent efficacy.

The present invention relates to a GRP78-derived peptide for screening highly efficient stem cells and the use thereof, and more particularly, to screening highly efficient stem cells using, as a marker, a GRP78-derived peptide capable of binding to the binding domain of GRP78 protein on the cell surface. According to the present invention, the GRP78-derived peptide comprising only a specific amino acid sequence capable of recognizing highly efficient stem cells, among the amino acid sequence of GRP78, makes it possible to screen only non-senescent young stem cells. In addition, when stem cells are treated with the GRP78-derived peptide or the GRP78-derived peptide is introduced into stem cells, the efficiency of the stem cells can be increased. Thus, the GRP78-derived peptide is useful for the production of stem cell therapy products having excellent efficacy.