Proadrenomedullin N-terminal 20 peptide (PAMP) and its C-terminal 12-residue peptide, PAMP(9–20): Cell selectivity and antimicrobial mechanism

Proadrenomedullin N-terminal 20 peptide (PAMP) is a regulatory peptide that is found in various cell types. It is involved in many biological activities and is rich in basic and hydrophobic amino acids, a common feature of antimicrobial peptides (AMPs). In this study, the cell selectivity and antimi...

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Published in:Biochemical and biophysical research communications 2020-06, Vol.527 (3), p.744-750
Main Authors: Ajish, Chelladurai, Yang, Sungtae, Kumar, S. Dinesh, Shin, Song Yub
Format: Article
Language:English
Subjects:
Adrenomedullin - chemistry
Adrenomedullin - pharmacology
Animals
Anti-Bacterial Agents - chemistry
Anti-Bacterial Agents - pharmacology
Antimicrobial mechanism
Bacteria - drug effects
Bacteria - metabolism
Bacterial Infections - drug therapy
Bacterial Infections - microbiology
Bacterial Outer Membrane - drug effects
Bacterial Outer Membrane - metabolism
Cell selectivity
DNA, Bacterial - metabolism
Hemolysis - drug effects
Intracellular target
Microbial Sensitivity Tests
PAMP
PAMP(9–20)
Peptide Fragments - chemistry
Peptide Fragments - pharmacology
Protein Precursors - chemistry
Protein Precursors - pharmacology
Sheep
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description Proadrenomedullin N-terminal 20 peptide (PAMP) is a regulatory peptide that is found in various cell types. It is involved in many biological activities and is rich in basic and hydrophobic amino acids, a common feature of antimicrobial peptides (AMPs). In this study, the cell selectivity and antimicrobial mechanism of PAMP and its C-terminal peptide, PAMP(9–20), were investigated. PAMP and PAMP(9–20) displayed potent antimicrobial activity (minimum inhibitory concentration: 4–32 μM) against standard bacterial strains, but showed no hemolytic activity even at the highest tested concentration of 256 μM. PAMP(9–20) showed 2- to 4-fold increase in antimicrobial activity against gram-negative bacteria compared to PAMP. Cytoplasmic membrane depolarization, leakage of calcein dye from membrane mimic liposomes, SYTOX Green uptake, membrane permeabilization, and flow cytometry studies indicated that the major target of PAMP and PAMP(9–20) is not the microbial cell membrane. Interestingly, laser-scanning confocal microscopy demonstrated that FITC-labeled PAMP and PAMP(9–20) enter the cytoplasm of Escherichia coli similar to buforin-2, and gel retardation assay indicated that PAMP and PAMP(9–20) effectively bind to bacterial DNA. These results suggest that the intracellular target mechanism is responsible for the antimicrobial action of PAMP and PAMP(9–20). Collectively, PAMP and PAMP(9–20) could be considered promising candidates for the development of new antimicrobial agents. [Display omitted] •PAMP and PAMP (9–20) acts as an antimicrobial peptide.•Compared with melittin, PAMP and PAMP(9–20) showed increased cell selectivity of 24.9- and 39.4-fold, respectively. .•PAMP(9–20) exhibits more potent antimicrobial activity against gram-negative bacteria compared to PAMP. .•Antimicrobial action of PAMP and PAMP(9–20) seem to exert via an intracellular target.•PAMP and PAMP(9–20) could be considered new promising candidates for antimicrobial drugs. .
doi_str_mv 10.1016/j.bbrc.2020.04.063
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Dinesh ; Shin, Song Yub</creator><creatorcontrib>Ajish, Chelladurai ; Yang, Sungtae ; Kumar, S. Dinesh ; Shin, Song Yub</creatorcontrib><description>Proadrenomedullin N-terminal 20 peptide (PAMP) is a regulatory peptide that is found in various cell types. It is involved in many biological activities and is rich in basic and hydrophobic amino acids, a common feature of antimicrobial peptides (AMPs). In this study, the cell selectivity and antimicrobial mechanism of PAMP and its C-terminal peptide, PAMP(9–20), were investigated. PAMP and PAMP(9–20) displayed potent antimicrobial activity (minimum inhibitory concentration: 4–32 μM) against standard bacterial strains, but showed no hemolytic activity even at the highest tested concentration of 256 μM. PAMP(9–20) showed 2- to 4-fold increase in antimicrobial activity against gram-negative bacteria compared to PAMP. Cytoplasmic membrane depolarization, leakage of calcein dye from membrane mimic liposomes, SYTOX Green uptake, membrane permeabilization, and flow cytometry studies indicated that the major target of PAMP and PAMP(9–20) is not the microbial cell membrane. Interestingly, laser-scanning confocal microscopy demonstrated that FITC-labeled PAMP and PAMP(9–20) enter the cytoplasm of Escherichia coli similar to buforin-2, and gel retardation assay indicated that PAMP and PAMP(9–20) effectively bind to bacterial DNA. These results suggest that the intracellular target mechanism is responsible for the antimicrobial action of PAMP and PAMP(9–20). Collectively, PAMP and PAMP(9–20) could be considered promising candidates for the development of new antimicrobial agents. 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PAMP and PAMP(9–20) displayed potent antimicrobial activity (minimum inhibitory concentration: 4–32 μM) against standard bacterial strains, but showed no hemolytic activity even at the highest tested concentration of 256 μM. PAMP(9–20) showed 2- to 4-fold increase in antimicrobial activity against gram-negative bacteria compared to PAMP. Cytoplasmic membrane depolarization, leakage of calcein dye from membrane mimic liposomes, SYTOX Green uptake, membrane permeabilization, and flow cytometry studies indicated that the major target of PAMP and PAMP(9–20) is not the microbial cell membrane. Interestingly, laser-scanning confocal microscopy demonstrated that FITC-labeled PAMP and PAMP(9–20) enter the cytoplasm of Escherichia coli similar to buforin-2, and gel retardation assay indicated that PAMP and PAMP(9–20) effectively bind to bacterial DNA. These results suggest that the intracellular target mechanism is responsible for the antimicrobial action of PAMP and PAMP(9–20). Collectively, PAMP and PAMP(9–20) could be considered promising candidates for the development of new antimicrobial agents. [Display omitted] •PAMP and PAMP (9–20) acts as an antimicrobial peptide.•Compared with melittin, PAMP and PAMP(9–20) showed increased cell selectivity of 24.9- and 39.4-fold, respectively. .•PAMP(9–20) exhibits more potent antimicrobial activity against gram-negative bacteria compared to PAMP. .•Antimicrobial action of PAMP and PAMP(9–20) seem to exert via an intracellular target.•PAMP and PAMP(9–20) could be considered new promising candidates for antimicrobial drugs. .</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>32439180</pmid><doi>10.1016/j.bbrc.2020.04.063</doi><tpages>7</tpages><orcidid>https://orcid.org/0000-0002-3030-7973</orcidid></addata></record>
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ispartof Biochemical and biophysical research communications, 2020-06, Vol.527 (3), p.744-750
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subjects Adrenomedullin - chemistry
Adrenomedullin - pharmacology
Animals
Anti-Bacterial Agents - chemistry
Anti-Bacterial Agents - pharmacology
Antimicrobial mechanism
Bacteria - drug effects
Bacteria - metabolism
Bacterial Infections - drug therapy
Bacterial Infections - microbiology
Bacterial Outer Membrane - drug effects
Bacterial Outer Membrane - metabolism
Cell selectivity
DNA, Bacterial - metabolism
Hemolysis - drug effects
Intracellular target
Microbial Sensitivity Tests
PAMP
PAMP(9–20)
Peptide Fragments - chemistry
Peptide Fragments - pharmacology
Protein Precursors - chemistry
Protein Precursors - pharmacology
Sheep
title Proadrenomedullin N-terminal 20 peptide (PAMP) and its C-terminal 12-residue peptide, PAMP(9–20): Cell selectivity and antimicrobial mechanism
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