Abstract: Provided are compositions, methods and kits that are useful for detecting, inhibiting the growth of, and killing bacteria. The compositions include recombinant, chimeric polypeptides that contain at least one immunoglobulin fragment crystallizable region (Fc) segment and at least one additional segment that contains a binding domain that is specific for a bacterial cell wall substrate. The binding domain is one from one or more of a bacterial autolysin, a bacteriophage lysin, a bacteriophage tail or tail fiber, or a bacteriocin. Method of using the polypeptides for detecting, inhibiting the growth of, and killing bacteria are provided and involve contacting bacteria with the polypeptides. Methods of making the polypeptides include expressing the polypeptides in cells, and separating the polypeptides from the cells. Polynucleotides, such as expression vectors, that encode the chimeric polypeptides are also provided.

Abstract: Acinetobacter lysin polypeptides and variants peptides with killing activity against gram negative bacteria. Methods for treating bacterial infections or bacterial colonization using Acintobacter lysin polypeptides.

Abstract: The present invention provides isolated dimeric Streptococcus-specific phage lysins having two Streptococcus-specific phage lysin monomers covalently linked to each other, and having killing activity against one or more Streptococcus bacteria. Also provided for are pharmaceutical compositions of dimeric lysins and their use in therapeutic treatment or alleviation of infections or bacterial colonizations. The dimeric lysins may also be used to decontaminate porous and non-porous surfaces or devices.

Abstract: The present disclosure relates to chimeric bacteriophage lysins useful for the identification and/or reduction of staphylococcal populations. For example, a chimeric bacteriophage lysin was engineered and shown to effectively kill all strains of staphylococci tested including antibiotic resistant methicillin-resistant S. Aureus and VISA.

Abstract: Provided are compositions and articles of manufacture useful for the prophylactic and therapeutic amelioration and treatment of gram-positive bacteria, including bacilli, and related conditions. The compositions and methods incorporate and utilize Clostridium difficile derived bacteriophage lysins, particularly PlyCD truncations. Methods for treatment of humans and non-human mammals are provided.

Abstract: The present invention provides isolated dimeric Streptococcus-specific phage lysins having two Streptococcus-specific phage lysin monomers covalently linked to each other, and having killing activity against one or more Streptococcus bacteria. Also provided for are pharmaceutical compositions of dimeric lysins and their use in therapeutic treatment or alleviation of infections or bacterial colonizations. The dimeric lysins may also be used to decontaminate porous and non-porous surfaces or devices.

Abstract: The present disclosure relates to chimeric bacteriophage lysins useful for the identification and/or reduction of staphylococcal populations. For example, a chimeric bacteriophage lysin was engineered and shown to effectively kill all strains of staphylococci tested including antibiotic resistant methicillin-resistant S. Aureus and VISA.

Abstract: The present invention relates to methods and compositions for use in modulating, including inhibiting the growth and/or reducing the virulence of, gram-positive bacteria. The present invention provides methods and compositions for disrupting the cell wall and/or cell membrane in gram-positive bacteria such that cell wall or cell membrane target(s) are rendered exposed or accessible and sensitive to a modulation thereof. Methods for modulation of one or more gram-positive bacterial cell wall or cell membrane targets in a gram-positive bacteria are provided comprising disrupting the cell wall such that the cell wall or cell membrane target, which is particularly a sortase, is rendered exposed or accessible and sensitive to a modifying, modulating or binding agent, which is particularly an antibody or fragment thereof, wherein the cell wall or cell membrane target is inaccessible or relatively insensitive to the modifying, modulating or binding agent in the absence of cell wall disruption.

Abstract: The present invention provides methods, compositions and articles of manufacture useful for the prophylactic and therapeutic amelioration and treatment of gram-positive bacteria, including Streptococcus and Staphylococcus, and related conditions. The invention provides compositions and methods incorporating and utilizing Streptococcus suis derived bacteriophage lysins, particularly PlySs2 and/or PlySs1 lytic enzymes and variants thereof, including truncations thereof. Methods for treatment of humans are provided.

Abstract: The present invention provides isolated dimeric Streptococcus-specific phage lysins having two Streptococcus-specific phage lysin monomers covalently linked to each other, and having killing activity against one or more Streptococcus bacteria. Also provided for are pharmaceutical compositions of dimeric lysins and their use in therapeutic treatment or alleviation of infections or bacterial colonizations. The dimeric lysins may also be used to decontaminate porous and non-porous surfaces or devices.

Abstract: The present invention provides methods, compositions and articles of manufacture useful for the prophylactic and therapeutic amelioration and treatment of gram-positive bacteria, including Streptococcus and Staphylococcus, and related conditions. The invention provides compositions and methods incorporating and utilizing Streptococcus suis derived bacteriophage lysins, particularly PlySs2 and/or PlySs1 lytic enzymes and variants thereof, including truncations thereof. Methods for treatment of humans are provided.

Abstract: The invention provides epsilon toxin (ETX) produced by Clostridium perfringens type B or type D as a causative toxin for human multiple sclerosis (MS). The invention further identifies ETX binding receptor MAL for ETX mediated cell death and other toxin-logical activities in MS. Methods and compositions to prevent humans from multiple sclerosis (MS) and/or treating MS by directly or indirectly interfering with epsilon toxin (ETX), its binding receptor (e.g., MAL), or ETX-receptor interactions so as to inhibit or suppress downstream ETX mediated receptor signaling activities are provided. Also provided are various methods to detect, diagnose, monitor, assess multiple sclerosis (MS) by determining an expression level of ETX gene or its encoding protein in human patient suspected for and/or at risk for multiple sclerosis (MS).

Abstract: The present invention relates to methods and compositions for use in modulating, including inhibiting the growth and/or reducing the virulence of, gram-positive bacteria. The present invention provides methods and compositions for disrupting the cell wall and/or cell membrane in gram-positive bacteria such that cell wall or cell membrane target(s) are rendered exposed or accessible and sensitive to a modulation thereof. Methods for modulation of one or more gram-positive bacterial cell wall or cell membrane targets in a gram-positive bacteria are provided comprising disrupting the cell wall such that the cell wall or cell membrane target, which is particularly a sortase, is rendered exposed or accessible and sensitive to a modifying, modulating or binding agent, which is particularly an antibody or fragment thereof, wherein the cell wall or cell membrane target is inaccessible or relatively insensitive to the modifying, modulating or binding agent in the absence of cell wall disruption.

Abstract: Acinetobacter lysin polypeptides and variants peptides with killing activity against gram negative bacteria. Methods for treating bacterial infections or bacterial colonization using Acinetobacter lysin polypeptides.

Abstract: The present disclosure provides recombinant phages, a Wip1 p23 receptor binding protein and a Wip1 p24 receptor binding protein that bind to Bacillus anthracis. The disclosure further provides methods and uses thereof.

Abstract: The present invention provides isolated dimeric Streptococcus-specific phage lysins having two Streptococcus-specific phage lysin monomers covalently linked to each other, and having killing activity against one or more Streptococcus bacteria. Also provided for are pharmaceutical compositions of dimeric lysins and their use in therapeutic treatment or alleviation of infections or bacterial colonizations. The dimeric lysins may also be used to decontaminate porous and non-porous surfaces or devices.

Abstract: The present invention provides isolated dimeric Streptococcus-specific phage lysins having two Streptococcus-specific phage lysin monomers covalently linked to each other, and having killing activity against one or more Streptococcus bacteria. Also provided for are pharmaceutical compositions of dimeric lysins and their use in therapeutic treatment or alleviation of infections or bacterial colonizations. The dimeric lysins may also be used to decontaminate porous and non-porous surfaces or devices.

Abstract: The present disclosure provides recombinant phages, a Wip1 p23 receptor binding protein and a Wip1 p24 receptor binding protein that bind to Bacillus anthracis. The disclosure further provides methods and uses thereof.

Abstract: The invention provides epsilon toxin (ETX) produced by Clostridium perfringens type B or type D as a causative toxin for human multiple sclerosis (MS). The invention further identifies ETX binding receptor MAL for ETX mediated cell death and other toxin-logical activities in MS. Methods and compositions to prevent humans from multiple sclerosis (MS) and/or treating MS by directly or indirectly interfering with epsilon toxin (ETX), its binding receptor (e.g., MAL), or ETX-receptor interactions so as to inhibit or suppress downstream ETX mediated receptor signaling activities are provided. Also provided are various methods to detect, diagnose, monitor, assess multiple sclerosis (MS) by determining an expression level of ETX gene or its encoding protein in human patient suspected for and/or at risk for multiple sclerosis (MS).

Abstract: The present invention relates to methods and compositions for use in modulating, including inhibiting the growth and/or reducing the virulence of, gram-positive bacteria. The present invention provides methods and compositions for disrupting the cell wall and/or cell membrane in gram-positive bacteria such that cell wall or cell membrane target(s) are rendered exposed or accessible and sensitive to a modulation thereof. Methods for modulation of one or more gram-positive bacterial cell wall or cell membrane targets in a gram-positive bacteria are provided comprising disrupting the cell wall such that the cell wall or cell membrane target, which is particularly a sortase, is rendered exposed or accessible and sensitive to a modifying, modulating or binding agent, which is particularly an antibody or fragment thereof, wherein the cell wall or cell membrane target is inaccessible or relatively insensitive to the modifying, modulating or binding agent in the absence of cell wall disruption.