The present invention provides a protein aggregation inhibitor for use in preventing aggregation of a protein, containing a crosslinked polymer obtained by polymerizing polymerizable polymer components containing a sulfobetaine polymer obtained by polymerizing monomer components containing a sulfobetaine monomer, the sulfobetaine monomer, and a crosslinkable monomer.

Systems and methods for modeling a three-dimensional protein structure are disclosed. The method includes receiving a primary amino acid sequence of a three-dimensional protein, translating the primary amino acid sequence to a first vector, determining a per-residue conformation index for each amino acid residue in the primary amino acid sequence, determining a vector set for each amino acid residue in the primary amino acid sequence, and using the per-residue interaction vector set to generate a multi-dimensional matrix for the three-dimensional protein structure. The first vector includes a unique numerical descriptor value corresponding to each amino acid residue in the primary amino acid sequence. The vector set includes a plurality per-residue interaction factors corresponding to a plurality of conformation indexes for that amino acid residue.

The present invention provides methods for the prevention, control, disruption and treatment of bacterial biofilms with lysin, particularly lysin having capability to kill Staphlococcal bacteria, including drug resistant Staphylococcus aureus, particularly the lysin PlySs2. The invention also provides compositions and methods for use in treatment or modulation of bacterial biofilm(s) and biofilm formation.

Provided are a novel polypeptide having endolysin activity, a fusion protein comprising the polypeptide and an antibiotic active protein, and an antibiotic use against a gram-negative pathogen of the polypeptide and/or fusion protein and/or a use for prevention and/or treatment of gram-negative pathogen infection and/or disease or symptoms related to gram negative pathogen infection.

A method of treating or preventing P. acnes and/or S. aureus infection is described, involving contacting P. acnes and/or S. aureus, or a physiological locus infected or susceptible to infection by P. acnes and/or S. aureus, with at least one of specified bacteriolytic agents. Corresponding pharmaceutical compositions containing such bacteriolytic agents are described, which are useful for treatment or prophylaxis of acne vulgaris and/or S. aureus infection, including methicillin-resistant S. aureus infection.

Disclosed is a drug combination for preventing or treating irritable bowel syndrome. The drug combination comprises dosmalfate and lysozyme.

The present disclosure provides methods and compositions useful for the prophylactic and therapeutic amelioration and treatment of infections caused by Gram-negative bacteria, including Pseudomonas aeruginosa. The disclosure further provides compositions and methods of incorporating and utilizing lysin polypeptides of the present disclosure for augmenting the efficacy of antibiotics generally suitable for the treatment of Gram-negative bacterial infection.

The invention provides hydrogel, wherein the hydrogel has a supramolecular cross-linked network obtainable or obtained from the complexation of an aqueous composition including a host, such as cucurbituril, and one or more polymers having suitable guest functionality. One or more polymers in the aqueous composition may have a molecular weight of 50 kDa or more, such as 200 kDa or more. The hydrogel may hold a component, such as a therapeutic compound or a biological molecule. The hydrogels are suitable for use in medicine.

Provided are a novel polypeptide, a fusion polypeptide comprising the polypeptide, and a use thereof as an antibiotic. More specifically, provided are a novel polypeptide derived from a bacteriophage, a novel fusion polypeptide comprising cecropin A, and an antibiotic against Gram-negative bacteria comprising the polypeptide and/or the fusion polypeptide.

A drug delivery system comprises a porous, self-healing biodegradable polymer matrix having a ionic, charged, biopolymer and a pH modifying species disposed within the pores. An ionic macromolecule having the opposite charge binds the biopolymer and forms a nonsoluble polyelectrolyte complex. The molecular weight of the biopolymer, the self healing polymer matrix, the concentration of pore forming agent and the concentration of the pH modifying species are selected for optimal binding and release of the macromolecule.