Abstract: Aspects of the present invention relate to peptides having antimicrobial activity. In certain aspects, the invention relates to peptides having potent antimicrobial activity, broad-spectrum antimicrobial activity, and/or the ability to kill otherwise antibiotic-resistant microbes, or microbes protected by biofilms.

Abstract: Disclosed are peptides having activity against receptor CXCR3 are disclosed that exhibit activity in preventing the formation of new vessels and activity in mediating the dissociation of newly-formed vessels and resolving of wounds in the later stages of wound healing. Preferred peptides are derived from the ?-helix portion IP-10 (CXCL10) or from IP-9 (CXCL11), are nontoxic, and smaller than naturally occurring peptides, making them useful in therapies against diseases or disease states marked by unwanted angiogenesis, including tumorogenic diseases such as cancers, and in healing of chronic wounds.

Abstract: Lytic peptides, including fusion peptides of lytic peptides conjugated with luteinizing hormone-releasing hormone or modified versions thereof to target luteinizing hormone-releasing hormone receptors, are disclosed. The lytic peptides show anti-proliferative activity against human prostate cancer cell lines, but are nontoxic to normal primary human prostate epithelial cells or to bone marrow stromal cells in co-culture. The lytic peptides have specificity for and anti-proliferative activity against prostate cancer tumor cells, and low toxicity for normal prostate cells, making the peptides useful in therapies for prostate cancer.

Abstract: Disclosed are peptides having activity against receptor CXCR3 are disclosed that exhibit activity in preventing the formation of new vessels and activity in mediating the dissociation of newly-formed vessels and resolving of wounds in the later stages of wound healing. Preferred peptides are derived from the ?-helix portion IP-10 (CXCL10) or from IP-9 (CXCL11), are nontoxic, and smaller than naturally occurring peptides, making them useful in therapies against diseases or disease states marked by unwanted angiogenesis, including tumorogenic diseases such as cancers, and in healing of chronic wounds.

Abstract: Lytic peptides, including fusion peptides of lytic peptides conjugated with luteinizing hormone-releasing hormone or modified versions thereof to target luteinizing hormone-releasing hormone receptors, are disclosed. The lytic peptides show anti-proliferative activity against human prostate cancer cell lines, but are nontoxic to normal primary human prostate epithelial cells or to bone marrow stromal cells in co-culture. The lytic peptides have specificity for and anti-proliferative activity against prostate cancer tumor cells, and low toxicity for normal prostate cells, making the peptides useful in therapies for prostate cancer.

Abstract: This disclosure provides a method and a product to treat fungal nail infections and Athlete's foot in a fast and non expensive way. The product contains one or more lytic peptides in water solution.

Abstract: This disclosure provides a method and a product to treat fungal nail infections and Athlete's foot in a fast and non expensive way. The product contains one or more lytic peptides in water solution.

Abstract: A composition is provided to heal burns, wounds and other skin traumas of mammals. The composition is useful to treat sepsis and to improve skin formation as well. The composition comprises an antimicrobial peptide having amino acid sequence FAKKFAKKFKKFAKKFAKFAFAF.

Abstract: Stabilized ubiquitin-lytic peptide fusion polypeptides and a method of making the same by sub-cloning nucleic acid sequences coding for lytic peptides into a plasmid vector comprising a promoter and ubiquitin polypeptide coding sequence, wherein the ubiquitin polypeptide sequence is linked to the 5' end of the lytic peptide nucleic acid sequence and is translated as a fusion polypeptide.

Abstract: Stabilized ubiquitin-lytic peptide fusion polypeptides and a method of making the same by sub-cloning nucleic acid sequences coding for lytic peptides into a plasmid vector comprising a promoter and ubiquitin polypeptide coding sequence, wherein the ubiquitin polypeptide sequence is linked to the 5' end of the lytic peptide nucleic acid sequence and is translated as a fusion polypeptide.

Abstract: Stabilized ubiquitin-lytic peptide fusion polypeptides and a method of making the same by sub-cloning nucleic acid sequences coding for lytic peptides into a plasmid vector comprising a promoter and ubiquitin polypeptide coding sequence, wherein the ubiquitin polypeptide sequence is linked to the 5' end of the lytic peptide nucleic acid sequence and is translated as a fusion polypeptide.