Peptides are provided that are capable of inhibiting cell activation mediated by a Toll-like receptor (TLR) selected from TLR 1, 2, 4 or 6, said peptide comprising a sequence consisting of, or found within, the sequence of the transmembrane domain of a TLR selected from TLR 1, 2, 4 or 6 and optionally cytoplasmic and extracellular regions flanking the transmembrane domain. These peptides as well as pharmaceutical composition comprising them are useful for the treatment of TLR-mediated disease.

Peptides are provided that are capable of inhibiting cell activation mediated by a Toll-like receptor (TLR) selected from TLR 1, 2, 4 or 6, said peptide comprising a sequence consisting of, or found within, the sequence of the transmembrane domain of a TLR selected from TLR 1, 2, 4 or 6 and optionally cytoplasmic and extracellular regions flanking the transmembrane domain. These peptides as well as pharmaceutical composition comprising them are useful for the treatment of TLR-mediated disease.

The present invention provides a polypeptide that is rich in leucine and used for preventing and restraining inflammation, and an application of same. The present invention further provides a method for preparing the polypeptide and a pharmaceutical composition containing the polypeptide. The advantage of the polypeptide comprises: small molecular weight, so as to permeate various eye tissue barriers; high water solubility, so as to have high dissolubility in neutral tears, aqueous humor and vitreous humor; and simple synthesis, so as to have a low preparation cost.

The present invention provides a polypeptide that is rich in leucine and used for preventing and restraining inflammation, and an application of same. The present invention further provides a method for preparing the polypeptide and a pharmaceutical composition containing the polypeptide. The advantage of the polypeptide comprises: small molecular weight, so as to permeate various eye tissue barriers; high water solubility, so as to have high dissolubility in neutral tears, aqueous humor and vitreous humor; and simple synthesis, so as to have a low preparation cost.

The invention relates to a process for the preparation of a product comprising one or more nanoparticles of calcium phosphate (CaP-NP) with negative surface charge having a ζ-potential in the range from −41.0 mV to −27.0 mV comprising the steps of: a) maintaining a mixture having a pH in the range from 7 to 10 and comprising an aqueous solution of calcium, an aqueous solution of phosphate and a solution of citrate ions at a temperature in the range from 20° C. to 40° C. for a time in the range from 30 seconds to 10 minutes; b) removing non-reacted ions from the solution of step a), thus obtaining a suspension of one or more nanoparticles of calcium phosphate (CaP-NP); c) recovering the product of one or more nanoparticles of calcium phosphate (CaP-NP) from the suspension of step b). In an advantageous embodiment, the process of the invention provides, in the mixture of step a), also an aqueous solution of one or more therapeutic/diagnostic compounds. The product of the invention may be used as a vehicle for one or more diagnostic/therapeutic compounds for the treatment of cardiovascular diseases through inhalation administration.

The invention relates to a process for the preparation of a product comprising one or more nanoparticles of calcium phosphate (CaP-NP) with negative surface charge having a ζ-potential in the range from −41.0 mV to −27.0 mV comprising the steps of: a) maintaining a mixture having a pH in the range from 7 to 10 and comprising an aqueous solution of calcium, an aqueous solution of phosphate and a solution of citrate ions at a temperature in the range from 20° C. to 40° C. for a time in the range from 30 seconds to 10 minutes; b) removing non-reacted ions from the solution of step a), thus obtaining a suspension of one or more nanoparticles of calcium phosphate (CaP-NP); c) recovering the product of one or more nanoparticles of calcium phosphate (CaP-NP) from the suspension of step b). In an advantageous embodiment, the process of the invention provides, in the mixture of step a), also an aqueous solution of one or more therapeutic/diagnostic compounds. The product of the invention may be used as a vehicle for one or more diagnostic/therapeutic compounds for the treatment of cardiovascular diseases through inhalation administration.

Provided herein are peptides comprising an amino acid sequence having at least about 85% sequence identity to RYRPRAPIIAVT (SEQ ID NO: 1). These cationic peptides inhibit PKM2 methylation and may be used in the treatment of breast cancer and other diseases or conditions in which PKM2 is overexpressed. Such PKM2 peptides may be delivered to cancer cells using pH sensitive unimolecular nanoparticles comprising anionic polymers.

Provided is a bacterial strain which produces a family of mosquitocidal toxins, Xenorhabdus MT, on deposit with the American Type Culture Collection, PTA-6826, insecticidal compositions comprising the mosquitocidal toxin(s) produced by Xenorhabdus MT, a mosquitocidal toxin preparation prepared from spent culture medium, whole culture or cells or a mixture thereof, of Xenorhabdus MT and method of insect control, especially mosquito control. Also provided are microbial compounds (same as mosquitocidal toxins) compositions comprising them and use in formulating therapeutic and other antimicrobial compositions, and methods of use for inhibiting microbial growth and for treating infection.

Provided is a bacterial strain which produces a family of mosquitocidal toxins, Xenorhabdus MT, on deposit with the American Type Culture Collection, PTA-6826, insecticidal compositions comprising the mosquitocidal toxin(s) produced by Xenorhabdus MT, a mosquitocidal toxin preparation prepared from spent culture medium, whole culture or cells or a mixture thereof, of Xenorhabdus MT and method of insect control, especially mosquito control. Also provided are microbial compounds (same as mosquitocidal toxins) compositions comprising them and use in formulating therapeutic and other antimicrobial compositions, and methods of use for inhibiting microbial growth and for treating infection.

This invention describes novel immunogenic complexes, which are designed to trigger a robust host immune response against cancer cells by co-opting the immune system's natural ability to eliminate pathogen-infected host cells. The immunogenic complexes, referred to as microbial mimetics (MM) have unique physical and biochemical properties, which are designed to simulate a pathogenic infection of similar sized bacteria and viruses, permitting tumor-associated and tumor-specific peptide antigens to be presented to immune cells as microbial constituents. The MM are well-suited to mimic a systemic infection with microbe sized particles comprised largely of tumor antigens. Under this framework, tumor cells may be eliminated in the ensuing immune response.

The MM exhibit unique properties, including size tunability and contain antigenic cargo complexed to immune stimulatory molecules, which synergize to potentiate immune responses. The MM constitute a versatile platform for triggering immune responses against cells expressing epitopes contained within the complexed antigenic cargo.