PMAP-37, A NOVEL ANTIBACTERIAL PEPTIDE FROM PIG MYELOID CELLS - CDNA CLONING, CHEMICAL SYNTHESIS AND ACTIVITY

A molecular biological approach, based on preproregion homology in the precursors of several diverse antibacterial peptides, was used to clone a pig bone marrow cDNA encoding a novel 167-residue polypeptide. The preproregion of this polypeptide is highly similar to corresponding regions in congeners from pig, cattle and rabbit. It is followed by a unique, cationic, 37-residue sequence, which was predicted to have a high propensity for an a-helical conformation. A peptide, termed PMAP-37, corresponding to this sequence, was chemically synthesized and shown to undergo a transition from a random coil to an ordered, mainly helical, conformation on addition of trifluoroethanol. This behaviour is typical of an amphipathic a helix, a structure common to several membrane-active, antimicrobial peptides. In vitro experiments showed that PMAP-37 strongly inhibits the growth of several strains of Gram-negative and Grampositive bacteria, with minimal inhibitory concentrations ranging over 1-4 mu M, and permeabilizes the inner membrane of Escherichia coli. Interestingly, the 15-32 stretch of PMAP-37 show a remarkable similarity to N-terminal stretches in cecropins B and A from Drosophila melanogaster and Cecropia hyalophora, respectively. This affords an uncommon example of sequence convergence.