Article ID Journal Published Year Pages File Type
1944654 Biochimica et Biophysica Acta (BBA) - Biomembranes 2010 10 Pages PDF
Abstract

The interactions of cationic amphipathic antimicrobial peptides (AMPs) with anionic biological membranes have been the focus of much research aimed at improving the activity of such compounds in the search for therapeutic leads. However, many of these peptides are thought to have other polyanions, such as DNA or RNA, as their ultimate target. Here a combination of fluorescence and circular dichroism (CD) spectroscopies has been used to assess the structural properties of amidated versions of buforin II, pleurocidin and magainin 2 that support their varying abilities to translocate through bacterial membranes and bind to double stranded DNA. Unlike magainin 2 amide, a prototypical membrane disruptive AMP, buforin II amide adopts a poorly helical structure in membranes closely mimicking the composition of Gram negative bacteria, such as Escherichia coli, and binds to a short duplex DNA sequence with high affinity, ultimately forming peptide–DNA condensates. The binding affinities of the peptides to duplex DNA are shown to be related to the structural changes that they induce. Furthermore, CD also reveals the conformation of the bound peptide buforin II amide. In contrast with a synthetic peptide, designed to adopt a perfect amphipathic α-helix, buforin II amide adopts an extended or polyproline II conformation when bound to DNA. These results show that an α-helix structure is not required for the DNA binding and condensation activity of buforin II amide.

Research Highlights► Buforin II induces greater conformational changes in DNA than other AMPs. ► Buforin II amide adopts a poorly helical structure in bacterial membranes. ► Buforin II amide does not adopt an α-helix structure bound to DNA. ► Other linear cationic AMPs adopt α-helix conformations in bacterial membranes. ► Other linear cationic AMPs do not adopt α-helix when bound to DNA.

Related Topics
Life Sciences Biochemistry, Genetics and Molecular Biology Biochemistry
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