The present invention relates to an esculentin-2CHa peptide and analogs thereof, and the use each thereof in the treatment of diabetes, for example type 2 diabetes; insulin resistance; obesity, and/or hypercholesterolemia. Also disclosed is a pharmaceutical composition comprising peptides and analogs according to the present invention; use of peptides and analogs according to the present invention for the manufacture of a medicament for the treatment of diabetes, insulin resistance, obesity, and/or hypercholesterolemia; and methods of treating diabetes, insulin resistance, obesity, and/or hypercholesterolemia.

The present invention refers to the use of Lixisenatide or/and a pharmaceutically acceptable salt thereof, for the manufacture of a medicament for the treatment of diabetes mellitus type 2, for inducing weight loss in diabetes type 2 patients or/and for preventing weight gain in diabetes type 2 patients.

Computational systems and methods are described for identifying new ?-helical antimicrobial peptides using a systemic consensus formula. Newly identified ?-helical antimicrobial peptides are tested experimentally and show potent microbiocidal activities.

The present invention relates to novel short antimicrobial peptides derived from SHf, to pharmaceutical compositions comprising said peptides and to the uses thereof, in particular as medicament, disinfectant, preservative, agent preventing biofilm formation or pesticide.

Provided herein, in some embodiments, are engineered phagemids that comprise at least one synthetic genetic circuit, wherein the at least one synthetic genetic circuit comprises gene sequences encoding at least one non-lytic antimicrobial peptides (AMPs) and/or antibacterial toxin proteins, a stable origin of replication, and a bacteriophage-packaging signal, wherein the engineered phagemid does not comprise some or all gene sequences encoding bacteriophage proteins required for assembly of a bacteriophage particle.

An improved method of deprotection in solid phase peptide synthesis is disclosed. In particular the deprotecting composition is added in high concentration and small volume to the mixture of the coupling solution, the growing peptide chain, and any excess activated acid from the preceding coupling cycle, and without any draining step between the coupling step of the previous cycle and the addition of the deprotection composition for the successive cycle. Thereafter, the ambient pressure in the vessel is reduced with a vacuum pull to remove the deprotecting composition without any draining step and without otherwise adversely affecting the remaining materials in the vessel or causing problems in subsequent steps in the SPPS cycle.

An intracellular selection system allows screening for peptide bioactivity and stability. Randomized recombinant peptides are screened for bioactivity in a tightly regulated expression system, preferably derived from the wild-type lac operon. Bioactive peptides thus identified are inherently protease- and peptidase-resistant. Also provided are bioactive peptides stabilized by a stabilizing group at the N-terminus, the C-terminus, or both. The stabilizing group can be a small stable protein, such as the Rop protein, glutathione sulfotransferase, thioredoxin, maltose binding protein, or glutathione reductase, an -helical moiety, or one or more proline residues.

The inefficient delivery of proteins into mammalian cells remains a major barrier to realizing the therapeutic potential of many proteins. Previously, it has been demonstrated that superpositively charged proteins are efficiently endocytosed and can bring associated proteins and nucleic acids into cells. The vast majority of cargo delivered in this manner, however, remains in endosomes and does not reach the cytosol. The present invention provides endosomal escape peptides that enhance endosomal escape and cytosolic delivery of proteins and other agents of interest. In one aspect, described herein are novel fusion proteins comprising endosomal escape peptides fused to proteins and other agents of interest for delivery to a cell. Also provided herein are methods and compounds useful in preparing the fusion proteins, as well as pharmaceutical compositions and uses of the fusion proteins.

Compositions are described for direct protein delivery into multiple cell types in the mammalian inner ear. The compositions are used to deliver protein(s) (such as gene editing factors) editing of genetic mutations associated with deafness or associated disorders thereof. The delivery of genome editing proteins for gene editing and correction of genetic mutations protect or restore hearing from genetic deafness. Methods of treatment include the intracellular delivery of these molecules to a specific therapeutic target.

There are disclosed nucleic acid vectors for use in both gram positive and gram negative bacteria. In embodiments the vectors comprise a prokaryotic expression cassette and in embodiments comprise a eukaryotic expression cassette. In embodiments the vectors encode a hybrid protein comprising a DNA binding domain, a CPP domain and a signal sequence.