Provided herein are antibacterial compositions and methods of making and using the compositions.

Provided herein are antibacterial compositions and methods of making and using the compositions.

The present invention relates to a variant of BPIFB4 protein (Bactericidal/Permeability Increasing protein family B, member 4) and to a polynucleotide or a vector encoding said variant of BPIFB4 protein and to their use for the treatment of pathologies involving impairment of nitric oxide signalling.

The present invention relates to bactericidal/permeability increasing protein (BPI) for use in a method of immunization of a patient, preferably as an adjuvant in a method of vaccination. The present invention also relates to a preparation comprising BPI for use in a method of immunization of a patient, and optionally an immunomodulatory agent. The present invention further relates to a process of producing a preparation including BPI for use in a method of immunization of a patient.

The present invention discloses a CXCL-BPI fusion protein that can be used for treating Gram-negative bacterial infections, a coding nucleic acid thereof, a method for expressing and preparing the same, and a use thereof in the manufacture of a pharmaceutical composition for treating Gram-negative bacterial infections. The CXCL-BPI fusion protein comprises a human ELR+CXC chemokine and a bioactive fragment of N-terminal domain of human BPI, and has the dual functions of both ELR+CXC chemokine and BPI, with ability of binding to LPS and directly killing Gram-negative bacteria, and also inducing chemotaxis and promoting phagocytes to target, bind to and phagocytize Gram-negative bacteria. The mechanism of action of the fusion protein can overcome Gram-negative bacterial drug resistance.