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1.
Biochim Biophys Acta Biomembr ; 1864(12): 184047, 2022 12 01.
Article in English | MEDLINE | ID: mdl-36100074

ABSTRACT

The exploitation of conventional antibiotics in conjunction with the adeptness of microbes has led to the emergence of multi-drug-resistant pathogens. This has posed a severe threat to combating life-threatening infectious diseases. Antimicrobial peptides (AMP), which are considered to be the first line of defense in all living organisms, are being developed for therapeutic use. Herein, we determined the NMR solution structure of Rhesus macaque Myeloid Alpha Defensin-4 (RMAD4), a defensin AMP. Additionally, the distinct modes of membrane perturbation for two structurally dissimilar classes of AMPs was studied using biophysical methods namely, Solid-state 31P NMR, DSC and cryo-TEM. The cathelicidin - Bovine myeloid antimicrobial peptide (BMAP-28 (1-18)), which adopts a helical conformation, and the defensin RMAD4 peptide that natively folds to form ß-sheets appeared to engage differently with the bacterial membrane. The helical BMAP-28 (1-18) peptide initiates lipid segregation and membrane thinning followed by pore formation, while the ß-stranded RMAD4 peptide demonstrates fragmentation of the bilayer by the carpet or detergent-like mechanism of action. Molecular dynamics studies sufficiently corroborated these findings. The structure and mechanism of action of the AMPs studied using experimental and computational approaches are believed to help in providing a platform for the rational design of new competent and cost-effective antimicrobial peptides for therapeutic applications.


Subject(s)
Antimicrobial Peptides , alpha-Defensins , Animals , Cattle , alpha-Defensins/pharmacology , Anti-Bacterial Agents/chemistry , Anti-Bacterial Agents/pharmacology , Cell Membrane/chemistry , Detergents/pharmacology , Lipids/analysis , Macaca mulatta
2.
J Struct Biol ; 204(3): 435-448, 2018 12.
Article in English | MEDLINE | ID: mdl-30336202

ABSTRACT

Structural characterization of BMAP-28(1-18), a potent bovine myeloid antimicrobial peptide can aid in understanding its mechanism of action at molecular level. We report NMR structure of the BMAP-28(1-18) and its mutated analogue mutBMAP18 in SDS micelles. Structural comparison of the peptides bound to SDS micelles and POPE-POPG vesicles using circular dichroism, suggest that structures in the two lipid preparations are similar. Antimicrobial assays show that even though both these peptides adopt helical conformation, BMAP-28(1-18) is more potent than mutBMAP18 in killing bacterial cells. Our EM images clearly indicate that the peptides target the bacterial cell membrane resulting in leakage of its contents. The structural basis for difference in activity between these peptides was investigated by molecular dynamics simulations. Inability of the mutBMAP18 to retain its helical structure in presence of POPE:POPG membrane as opposed to the BMAP-28(1-18) at identical peptide/lipid ratios could be responsible for its decreased activity. Residues Ser5, Arg8 and Arg12 of the BMAP-28(1-18) are crucial for its initial anchoring to the bilayer. We conclude that along with amphipathicity, a stable secondary structure that can promote/initiate membrane anchoring is key in determining membrane destabilization potential of these AMPs. Our findings are a step towards understanding the role of specific residues in antimicrobial activity of BMAP-28(1-18), which will facilitate design of smaller, cost-effective therapeutics and would also help prediction algorithms to expedite screening out variants of the parent peptide with greater accuracy.


Subject(s)
Anti-Infective Agents/chemistry , Bacteria/metabolism , Cell Membrane/metabolism , Proteins/chemistry , Amino Acid Sequence , Animals , Anti-Infective Agents/metabolism , Anti-Infective Agents/pharmacology , Bacteria/drug effects , Cattle , Cell Membrane/drug effects , Cell Membrane/ultrastructure , Circular Dichroism , Micelles , Microbial Sensitivity Tests , Microscopy, Electron, Scanning , Molecular Dynamics Simulation , Protein Structure, Secondary , Proteins/metabolism , Proteins/pharmacology , Sequence Homology, Amino Acid , Sodium Dodecyl Sulfate/chemistry , Sodium Dodecyl Sulfate/metabolism
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