Disclosed are crystalline forms of the bis- and tris-(hydrochloride) salts of D-Arg-Tyr(2,6-DiMe)-Lys-Phe-NH.sub.2, which is also known as MTP-131.

Disclosed herein are polypeptides and fusion polypeptides that have anti-angiogenic activity that can be used to inhibit tumor growth and tumor metastasis. The polypeptide consists of 9 or less consecutive amino acid residues (e.g., 8, 7, 6, 5, or 4) comprising the active core amino acid sequence DWLP, or an amino acid substitution variant thereof. Specific amino acid substitutions are disclosed herein. In some embodiments, the peptide consists essentially of 4-6 mers identified as exhibiting the activity of prosaposin A. Also disclosed herein are therapeutic compositions comprising the polypeptides and fusion polypeptides, and their use in the treatment, prevention, and inhibition of angiogenesis-related diseases and disorders such as cancer and cancer metastasis.

Provided are compositions, methods and devices for prophylaxis and/or therapy of sexually transmitted bacterial infections that infect the female reproductive tract. The compositions methods and devices are used for intravaginal administration of compositions that contain a peptide agent known as PIK and/or a compound known as ML-7. Demonstrations of embodiments are provided for infection models that involve Neisseria gonorrhoeae.

The present invention relates to peptides capable of forming a gel and to their use in tissue engineering and bioprinting. The present invention furthermore relates to a gel comprising a peptide in accordance with the present invention, to a method of preparing such gel and to the use of such gel. In one embodiment, such gel is a hydrogel. The present invention furthermore relates to a wound dressing or wound healing agent comprising a gel according to the present invention and to a surgical implant or stent comprising a peptide scaffold formed by a gel according to the present invention. Moreover, the present invention also relates to a pharmaceutical and/or cosmetic composition, to a biomedical device or an electronic device comprising the peptide according to the present invention.

The present technology provides methods of generating the peptides, and pharmaceutically acceptable salts of the peptides and intermediates thereof. In some embodiments, the peptide is D-Arg-26-Dmt-Lys-Phe-NH.sub.2.

Provided is a peptide fragment derived from secreted frizzled protein 5 (Sfrp5), i.e., a peptide fragment selected from the group consisting of the peptides as set forth in SEQ ID NOs: 1 to 9 and a cosmetic composition for skin-whitening and/or inhibiting skin pigmentation comprising the same as an active ingredient. The peptide fragment inhibits melanin formation in melanocytes, thereby having an inhibitory activity against skin pigmentation. Further provided is a reagent for researching or analyzing the inhibition of Wnt signaling pathways comprising the peptide fragment.

A bis-alkoxyl amide alkyl cationic peptide lipid has a chemical structure as below: ##STR00001##
wherein the bis-alkoxyl amide alkyl cationic peptide lipid is dispersed in water to obtain the cationic peptide liposome which are high in stability and uniform in dispersion and have about 120 nm of average grain diameter and Zeta electric potential between 30 and 50 mV. The liposome can effectively compress the plasmids DNA and siRNA, can efficient transfection both in-vitro and in-vivo, and almost does not have toxicity to cells and mice, so that the liposome can be widely applied in gene delivery as a gene vector.

The invention relates to carrier complexes and methods for delivering molecules to cells. The carrier complexes comprises a molecule and an aromatic cationic peptide in accordance with the invention. In one embodiment, the method for delivering a molecule to a cell comprises contacting the cell with a carrier complex. In another embodiment, the method for delivering a molecule to a cell comprises contacting the cell with a molecule and an aromatic cationic peptide.

Heme released as a result of sustained injury leads to toxicity and triggers an inflammatory response and tissue damage. Heme oxygenase, an enzyme, recognizes, binds free heme and breaks it down as a part of the anti-inflammatory response. The present disclosure relates to a class of peptide amphiphiles that mimic the heme oxygenase function, and have shown that the designed peptide is able to bind and break down heme thus validating its potential as an anti-inflammatory agent that promotes tissue repair and useful in wound healing. The disclosed peptide sequence design provides control of amphiphile peptides' supramolecular structure and function. Applicants have shown that the incorporated heme molecule can transport CO, which suggests that the peptides can also transport NO, O.sub.2 and reactive oxygens, the molecules which are responsible for vasodilation, neurotransmission and cell death. Besides heme oxygenase function, it is believed that the designed peptides can recognize normal tissue adjacent to the damaged area and the peptide can self-assemble into fibers that promote healthy cell growth.

The present invention relates to a compound simultaneously having triple activities of thrombolysis, antithrombosis and free radical scavenging, as well as the preparation method, composition, and applications thereof. The compound is represented by the formula I shown below:

##STR00001##

wherein the definitions of T, Q, R.sub.1 and R.sub.2 are described herein. The compound of the present invention simultaneously has triple functions of thrombolysis, free radical scavenging and thrombus-targeting/antithrombosis. The present invention also relates to a pharmaceutical composition comprising the compound, and a preparation method and a nanostructure of the compound.