Abstract: The present invention provides a peptide comprising an amino acid sequence that is part of the amino acid sequence of CDK4 protein, or homologous to part of the amino acid sequence of CDK4 protein, which peptide is cytotoxic to, and/or inhibiting to the growth of, a cancer cell and/or stimulating to the growth of a non-cancerous cell and/or a control cell. Methods of identifying such peptides and medical uses of such peptides are also disclosed.

Abstract: Isolated peptides comprising nuclear targeting activity or being capable of preventing endogenous nuclear targeting activity are disclosed. Polynucleotides encoding same, pharmaceutical compositions comprising same, as well as uses thereof are also disclosed.

Abstract: The invention provides compositions, methods, and kits for increasing transport of GDNF across the blood brain barrier while allowing its activity to remain substantially intact. The GDNF is transported across the blood brain barrier via one or more endogenous receptor-mediated transport systems.

Abstract: This invention provides compositions and methods for enhancing delivery of drugs and other agents across epithelial tissues, including into and across ocular tissues and the like. The compositions and methods are also useful for delivery across endothelial tissues, including the blood brain barrier. The compositions and methods employ a delivery enhancing transporter that has sufficient guanidino or amidino sidechain moieties to enhance delivery of a compound conjugated to the reagent across one or more layers of the tissue, compared to the non-conjugated compound. The delivery-enhancing polymers include, for example, poly-arginine molecules that are preferably between about 6 and 25 residues in length.

Abstract: The invention is directed to a method for preventing nasolacrimal duct obstruction (NLDO) in a patient receiving high dose radioactive iodine for treatment of cancer. The method includes administering an effective amount of perchlorate anion to the eyes of the patient.

Abstract: The invention provides methods and compositions for identifying and quantifying pathological changes on the retina.

Abstract: The present invention is related to a composition and a method for delivering a nucleic acid into a cell. The invention also provides a biocompatible and biodegradable gene delivery composition and methods of use and making thereof.

Abstract: Peptides of general formula (I), their stereoisomers, mixtures thereof and/or their cosmetically or pharmaceutically acceptable salts, a preparation process, cosmetic or pharmaceutical compositions which contain them and their use for the treatment and/or care of conditions, disorders and/or diseases of the skin and/or mucous membranes.

Abstract: Provided are 9-base morpholino antisense compounds targeted to polyCUG repeats in the 3?UTR region of dystrophia myotonica protein kinase (DMPK) mRNA, and related methods for treating myotonic dystrophy DM1.

Abstract: An isolated peptide including an amino acid sequence of SEQ ID NO: 1 is provided. The disclosure also provides a delivery system comprising a carrier having a surface, a drug or a dye encapsulated in the carrier, and the disclosed peptide (having an amino acid sequence of SEQ ID NO: 1) grafted on the surface of the carrier.

Abstract: This invention describes a protein nanoparticle system for targeting siRNA or other drugs into tumors. The basis of the protein system is elastin-like peptides that self-assemble once exposed to the nucleic acid of the siRNA. Specific targeting peptides are fused to the core ELP structure by standard genetic engineering techniques. These targeting peptides confer specific binding of the nanoparticle to receptors on the surface of tumor cells and allow for uptake of the nanoparticle into the tumor cells.

Abstract: The present invention provides a novel method for the transduction and/or transfection of plant cells. Cell-penetrating peptides (CPPs) have been successfully employed as nanocarriers to deliver proteins and oligonucleotides to single plant cell microspores as well as multi-cellular zygotic embryos. The efficiency of CPP internalization and further delivery of a macromolecular cargo comprising a protein and/or an oligonucleotide can be enhanced by permeabilization of the zygotic embryos.

Abstract: A cell proliferation promoter includes, as an active ingredient, an artificially synthesized peptide that includes (A) an amino acid sequence constituting a membrane-permeable peptide and (B) an amino acid sequence selected from SEQ ID NOs: 19 to 103 or an amino acid sequence formed by substituting, deleting and/or adding one or several amino acid residues in the selected amino acid sequence.

Abstract: The method for transferring a foreign substance provided by the present invention includes the steps of: preparing a construct for transferring a foreign substance that contains a carrier peptide fragment including either the amino acid sequence WRRQARFK (SEQ ID NO. 1) or any amino acid sequence formed by the substitution, deletion, and/or addition (insertion) of 1, 2, or 3 amino acid residues in the amino acid sequence, and a foreign substance of interest that is bonded to the N-terminus and/or C-terminus of the carrier peptide fragment; supplying the construct for transferring a foreign substance to a test sample that contains a target eukaryotic cell; and incubating the test sample that has been supplied with the construct for transferring a foreign substance to thereby transfer the construct into the eukaryotic cell in the test sample.

Abstract: Provided herein are methods of improving electrolyte balance across a cell membrane and treating pathophysiological conditions associated with electrolyte imbalance. Improvement or treatment is effected by ontacting the cell or administering a peptide modulator that increases the surface expression of Ca2+-activated potassium channels. The peptide modulator may comprise a C-terminal sequence such as in SEQ ID NOS: 9 or 10 or a conservative mutant thereof such as in SEQ ID NOS: 12-20 or modifications thereof.

Abstract: Pharmaceutical compositions are provided. The compositions comprise a compound comprising the hyaluronan-containing structure A-(low molecular weight hyaluronan domain)-B. The compositions also comprise a pharmaceutically acceptable excipient. A is hydrogen, a substituent that does not comprise a binding site for tumor necrosis factor stimulated gene-6 (“TSG-6”) protein, a substituent that interferes with binding of TSG-6 protein immediately adjacent thereto, or chondroitin. B is hydroxyl, a substituent that does not comprise a binding site for TSG-6 protein, a substituent that interferes with binding of TSG-6 protein immediately adjacent thereto, or chondroitin. The composition is suitable for administration by injection, inhalation, topical rub, or ingestion.

Abstract: The present invention generally relates to the technical field of medicine, in particular to the field of neurodegenerative, neurological and protein misfolding disorders such as amyloidosis. By establishing a role of ankG in APP processing the method of the present invention provides a new insight into the role of ankG in AD pathology and provides ankG as a target, drug, diagnostic agent and particularly as a vaccine in the treatment and diagnosis of the pathogenesis of Alzheimer's disease (AD).

Abstract: Methods and compositions are provided for treating an ocular disease in a subject in need thereof by increasing the bioavailability of a drug in the subject's eye. In one aspect, the ocular disease is at least one of diabetic retinopathy, macular degeneration, endopthalmitis, glaucoma, cataracts, ocular herpes. The methods and compositions provided herein include an efflux transporter inhibitor and a drug effective for treating the ocular disease. The efflux transporter inhibitor is effective to reduce the efflux of the drug through at least one of P-glycoprotein (Pgp), breast cancer resistant protein (BCRP), and multidrug resistant associated protein 1-9 (MRP1-9).

Abstract: The present invention relates to a method using a cell penetrating peptide (Pep-1) for labeling and delivering mitochondria separated from healthy cells to replace damaged mitochondria. At present, microinjection of mitochondria into cells can only process one cell at a time, and therefore, this technique is limited to embryo related research and relevant applications. The advantages of the said peptide-mediated mitochondrial delivery system (PMD) include less steps with more efficiency, where a number of cells can be treated following one labeling process; the delivery process can be easily controlled, there is no cell toxicity after delivery under appropriate conditions, and delivery efficiency is over 80% depending on different cell types. Mitochondria delivered by the PMD system will move to the original mitochondrial location in the cells and will not be catalyzed in lysosomes; thus, the therapeutic effects can last at least one week.

Abstract: The present invention discloses methods and materials for delivering a cargo compound into a cancer cell. Delivery of the cargo compound is accomplished by the use of protein transduction domains derived from cupredoxins. The invention further discloses methods for treating cancer and diagnosing cancer.

Abstract: Provided herein are compositions and methods for use in promoting wound healing and tissue regeneration following tissue injury in a subject.

Abstract: Synthetic cholesterylamine-linkers can include derivatives of cholesterol, cholesteryl, or sitosteryl coupled through the linker to an agent for delivery into cells. The cholesterylamines are thought to mimic cholesterol in the capacity and mechanism for enhanced entry into cells. The configuration of the cholesterylamine-linker that is thought to provide for enhanced entry into cells includes a cholesterylamine that is coupled to a linker from the amine, and which linker includes a negative charge at a spatial distance from the amine of the cholesterylamine.

Abstract: A method of treatment of inflamed, pre-cancerous or cancerous tissue or polyps in a mammalian subject is disclosed. The treatment involves administration of a composition of at least one peptide agonist of a guanylate cyclase receptor and/or other small molecules that enhance intracellular production of cGMP. The at least one peptide agonist of a guanylate cyclase receptor may be administered either alone or in combination with an inhibitor of cGMP-dependent phosphodiesterase. The inhibitor may be a small molecule, peptide, protein or other compound that inhibits the degradation of cGMP. Without requiring a particular mechanism of action, this treatment may restore a healthy balance between proliferation and apoptosis in the subject's population of epithelial cells, and also suppress carcinogenesis.

Abstract: A pharmaceutical formulation for a PKC modulatory peptide and a transport moiety comprising the aforementioned components and an anti-aggregant.

Abstract: The present invention provides a means for increasing the serum half-life of a selected biologically active agent by utilizing transthyretin (TTR) as a fusion partner with a biologically active agent. Specifically, the present invention provides substantially homogenous preparations of TTR (or a TTR variant)-biologically active agent fusions and PEG-TTR (PEG-TTR variant)-biologically active agent fusions. As compared to the biologically active agent alone, the TTR-biologically active agent fusion and/or PEG-TTR-biologically active agent fusion has substantially increased serum half-life.

Abstract: The present invention discloses novel macromolecule transduction domain (MTD) peptides which facilitate the traverse of a biologically active molecule across the cell membrane. Also disclosed are polynucleotides encoding the MTD peptides, methods of identifying the MTD peptides; methods of genetically engineering a biologically active molecule to have cell permeability by using the MTD peptides, methods of importing a biologically active molecule into a cell by using the MTD peptides, and uses thereof.

Abstract: Methods of preparing a proteoliposome comprise the step of contacting a liposome with an effective portion of RalBP1 to create a proteoliposome. RalBP1 is effective for the protection and treatment of mammals and the environment against the accumulation of toxic compounds and prevents accumulation of one or more toxic compounds, reduces the concentration of toxic compounds, and protects against further contamination with one or more toxic compounds.

Abstract: Methods for using chimeric polypeptides and other compositions comprising H4 tail peptides to increase p53 activity in cells and treat diseases mediated by lack of or dysfunctional p53 function as described. Also provided are chimeric polypeptides and other compositions comprising H4 tail peptides.

Abstract: The present invention relates to nucleic acids and polypeptides encoded thereby, whose expression is modulated in brain microvascular endothelial cells undergoing early dynamic inflammation-induced changes in blood-brain bather functionality. Such polypeptides are referred to as lipopolysaccharide-sensitive (LPSS) polypeptides. These nucleic acids and polypeptides may be useful in methods for controlling blood-brain bather properties in mammals in need of such biological effects. This includes the diagnosis and treatment of disturbances in the blood-brain/retina barrier, brain (including the eye) disorders, as well as peripheral vascular disorders. Additionally, the invention relates to the use of anti-LPSS polypeptide antibodies or ligands as diagnostic probes, as blood-brain barrier targeting agents or as therapeutic agents as well as the use of ligands or modulators of expression, activation or bioactivity of LPSS polypeptides as diagnostic probes, therapeutic agents or drug delivery enhancers.

Abstract: The present invention relates to compositions and methods for prevention and treatment of diseases and conditions, particularly ocular diseases and conditions, characterized by aberrant fibrogenesis or scarring, inflammation, and/or aberrant neovascularization or angiogenesis. The compositions and methods of the invention utilize immune-derived moieties that are specifically reactive against the bioactive lipid, sphingosine-1-phosphate, and its variants, which moieties are capable of decreasing the effective concentration of bioactive lipid being targeted. In one embodiment, the immune-derived moiety is a humanized monoclonal antibody that is reactive against sphingosine-1-phosphate.

Abstract: The disclosure provides a cell penetrating peptide. The cell penetrating peptide includes an amino acid sequence of Dn, in which D represents an aspartate residue and 2?n?15.

Abstract: A method for transferring a foreign substance includes the steps of: preparing a construct for transferring a foreign substance that contains a carrier peptide fragment including either the amino acid sequence KKRTLRKNDRKKR (SEQ ID NO. 1) or an amino acid sequence formed by the substitution, deletion, and/or addition (insertion) of 1, 2, or 3 amino acid residues in the amino acid sequence, and a foreign substance of interest that is bonded to the N-terminus and/or C-terminus of the carrier peptide fragment; supplying the construct for transferring a foreign substance to a test sample that contains a target eukaryotic cell; and incubating the test sample that has been supplied with the construct for transferring a foreign substance to thereby transfer the construct into the eukaryotic cell in the test sample.

Abstract: Provided herein are compositions and methods for treating a disease or disorder associated with an alphavirus infection. Specifically, the invention relates to administering a Natural Resistance-Associated Macrophage Protein (NRAMP) antagonist to prevent binding or infection of an alphavirus to its host.

Abstract: The present invention relates to blood products, and more particularly to compositions comprising a modified oxygenated hemoglobin having a high affinity for oxygen and methods for making such compositions. Such compositions according to the present invention have better stability to auto oxidation and superior oxygen carrying characteristics.

Abstract: The invention provides human secreted proteins (SECP) and polynucleotides which identify and encode SECP. The invention also provides expression vectors, host cells, antibodies, agonists, and antagonists. The invention also provides methods for diagnosing, treating, or preventing disorders associated with aberrant expression of SECP.

Abstract: Provided is a pharmaceutical composition for sequestering cells in connective tissue. The composition includes a biocompatible scaffolding to which one or more peptides or proteins are linked. The peptides or proteins have an amino acid sequence that is a subsequence of human ficolin and are capable of binding the cells to be sequestered. The pharmaceutical composition can be used in the treatment of connective tissue, and can be used as a dermal filler.

Abstract: The present invention provides for diagnosis or treatment of neurological or neuropsychiatric disorders involving abnormal dopamine neurotransmission. Methods and agents are provided for modulating dopamine transporter activity and modulating dopaminergic neurotransmission. Agents of the present invention include fragments of D2 receptor or dopamine transporter (DAT) that can disrupt D2-DAT coupling.

Abstract: Compounds and compositions for the delivery of active agents are provided. Methods of administration and preparation are provided as well.

Abstract: The invention is directed to a method for preventing nasolacrimal duct obstruction (NLDO) in a patient receiving high dose radioactive iodine for treatment of cancer. The method includes administering an effective amount of perchlorate anion to the eyes of the patient.

Abstract: The present disclosure provides peptides and peptide compositions, which facilitate the delivery of an active agent or an active agent carrier wherein the compositions are capable of penetrating the stratum corneum (SC) and/or the cellular membranes of viable cells.

Abstract: A method for managing withdrawal from an addictive substance is described. The method involves administering one or more peptides having specific activity for the ? and/or ? isozyme of protein kinase C (PKC). The peptide(s) can be administered prior to, concurrent with, or subsequent to administration of the addictive substance. Also described is a kit having at least one container containing a peptide having isozyme-specific activity for ?PKC or ?PKC and instructions for use.

Abstract: Biodegradable neurotoxin implants and methods of making and using such implants are provided. Biodegradable neurotoxin implants include a neurotoxin, a biodegradable polymer component, and an acidity regulating component. The biodegradable polymer component is effective in controlling the release of the neurotoxin from the implant when the implant is located in a patient's body. The acidity regulating component is effective in maintaining a pH of the implant in a desired range that may be effective in stabilizing the neurotoxin as the implant biodegrades when the implant is located in a patient's body. In one embodiment, an implant includes a botulinum toxin, a biodegradable polymer, and either monomers from which a biodegradable polymer is derived or oligomers including monomeric units substantially identical to a monomer from which a biodegradable polymer is derived, or a combination of such monomers and oligomers. The oligomers and biodegradable polymer may be derived from a single type of monomer.

Abstract: Several aromatic hydrocarbons di-substituted with a polyamine are described according to formulas selected from compounds 4, 7, 10, 15 and pharmaceutically acceptable salts thereof. The novel dimeric polyamines of the present invention demonstrate enhanced penetration into cells having an upregulated polyamine transport system, such as various types of cancer cells. The disclosed aromatic polyamine dimers provide highly efficient drugs for targeting cancer cells with active polyamine transporters.

Abstract: Methods and compositions useful for enhancing the absorption and/or transport of peptides, peptidomimetics, and other gastrointestinal transport protein substrates through gastrointestinal transport proteins are provided. The methods comprise using hormones such as 5-methoxy-N-acetyltryptamine to increase the transport of the peptides, peptidomimetics, and substrates. The compositions comprise one or more hormones and one or more peptides, peptidomimetics, and other gastrointestinal transport protein substrates.

Abstract: The use of a peptide is described as a carrier for the transport of molecules or radioisotopes into cancer cells; also described are modifications of said peptide and their use.

Abstract: The invention provides methods for treating stroke and compositions for use in the same. The methods employ a chimeric peptide of an active peptide and an internalization peptide. The internalization peptide is a tat variant that promotes uptake of itself and a linked active peptide into a cell without substantial binding to N-type calcium channels. Use of the tat variant allows treating of stroke free of certain side effects associated with binding to N-type calcium channels. Tat variant peptides can also be linked to other active agent for use in treating other diseases.

Abstract: The present invention discloses cell permeable Nm23 recombinant proteins where a macromolecule transduction domain (MTD) is fused to a metastasis suppressor Nm23. Also disclosed are polynucleotides encoding the cell permeable Nm23 recombinant proteins, an expression vector containing the cell permeable Nm23 recombinant protein, and a pharmaceutical composition for preventing metastasis which contains the cell permeable Nm23 recombinant protein as an effective ingredient. The cell permeable Nm23 recombinant proteins of the present invention can induce KSR phosphorylation and inactivation and inhibit Ras-mediated MAPK cascade by efficiently introducing a metastasis suppressor Nm23 into a cell. Therefore, the cell permeable Nm23 recombinant proteins of the present invention can be effectively used as an anti-metastatic agent capable of preventing cancer metastasis by inhibiting the proliferation, differentiation and migration of cancer cells.

Abstract: The present invention discloses cell permeable p18 recombinant proteins where a macromolecule transduction domain (MTD) is fused to a tumor suppressor p18. Also disclosed are polynucleotides encoding the cell permeable p18 recombinant proteins, an expression vector containing the cell permeable p18 recombinant protein, and a pharmaceutical composition for treating p18 deficiency or failure which contains the cell permeable p18 recombinant protein as an effective ingredient. The cell permeable p18 recombinant proteins of the present invention are capable of efficiently introducing a haploinsufficient tumor suppressor p18 into a cell, and thus, can activate cell signaling mechanisms involved in the activation of ATM and p53 that induce cell cycle arrest and apoptosis in response to DNA damage or oncogenic signals. Therefore, the cell permeable p18 recombinant proteins of the present invention can be effectively used as an anticancer agent.

Abstract: The present invention relates to a block copolymer containing an uncharged hydrophilic polymer chain block and a cationic polyamino acid chain block, wherein the hydrophilic polymer chain block is covalently bound to one end of the main chain of the polyamino acid chain block, and the hydrophobic group is covalently bound to the side chains of not less than 10% and not greater than 70% of amino acid repeating units in the polyamino acid chain block. This block copolymer forms a stable aggregate with siRNA, a small-molecule nucleic acid, under a physiological condition.

Abstract: Methods for controlling and regulating engulfment, uptake and/or transcellular transport at a stage following initial engagement of an agent to the endothelium are provided, based on the identification of CAM-mediated endocytosis and the sphingomyelin/ceramide pathway as active steps in transcellular TEM. Administration of regulators relating to the identified pathways, such as NHE1, sphingomyelinases, acid sphingomyelinase and ceramide, permit control and regulation of uptake and transcellular transport. Control and regulation of uptake and/or transcellular transport is applicable in strategies to modulate inflammation, provide controlled and/or targeted delivery of agents, control pathogenic invasion, recover action of an inhibited CAM-mediated uptake or transendothelial pathway, or provide uptake or transendothelial transport by targeting cell surface markers other than ICAM-1.