Karine Lugardon scite author profile

Vasostatin-1, the natural N-terminal 1-76 chromogranin A (CGA)-derived fragment in bovine sequence, has been purified from chromaffin secretory granules and identified by sequencing and matrix-assisted laser desorption time-of-flight mass spectrometry. This peptide, which displays antibacterial activity against Gram-positive bacteria at micromolar concentrations, is also able to kill a large variety of filamentous fungi and yeast cells in the 1-10 M range. We have found that the C-terminal moiety of vasostatin-1 is essential for the antifungal activity, and shorter active peptides have been synthesized. In addition, from the comparison with the activity displayed by related peptides (human recombinant and rat synthetic fragments), we could determine that antibacterial and antifungal activities have different structural requirements. To assess for such activities in vivo, CGA and CGA-derived fragments were identified in secretory material released from human polymorphonuclear neutrophils upon stimulation. Vasostatin-1, which is stored in a large variety of cells (endocrine, neuroendocrine, and neurons) and which is liberated from stimulated chromaffin and immune cells upon stress, may represent a new component active in innate immunity.

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Antibacterial Activity of Glycosylated and Phosphorylated Chromogranin A-derived Peptide 173-194 from Bovine Adrenal Medullary Chromaffin Granules

Strub

Goumon

Lugardon

et al. 1996

Journal of Biological Chemistry

117

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Structural and Biological Characterization of Chromofungin, the Antifungal Chromogranin A-(47–66)-derived Peptide

Lugardon¹,

Chasserot‐Golaz²,

Kieffer³

et al. 2001

Journal of Biological Chemistry

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In order to examine thoroughly the antifungal activity of chromofungin, confocal laser microscopy was used to demonstrate the ability of the rhodamine-labeled peptide to interact with the fungal cell wall, to cross the plasma membrane, and to accumulate in Aspergillus fumigatus, Alternaria brassicola, and Candida albicans. Our present data reveal that chromofungin inhibits calcineurin activity, extending a previous observation that the N-terminal region of chromogranin A interacts with calmodulin in the presence of calcium. Therefore, the destabilization of fungal wall and plasma membrane, together with the possible intracellular inhibition of calmodulin-dependent enzymes, is likely to represent the mechanism by which vasostatin-I and chromofungin exert antifungal activity.

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Structural and Biological Characterization of Chromofungin, the Antifungal Chromogranin A (47‐66)‐Derived Peptide

Lugardon

Chasserot‐Golaz²,

Kieffer

et al. 2002

Annals of the New York Academy of Sciences

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The antifungal peptide named chromofungin is the most active vasostatin-I-derived peptide, corresponding to the sequence 47-66 of chromogranin A. (1)H-NMR analysis revealed that it adopts a helical structure. The mechanism implicated in the interaction of chromofungin with fungi and yeast cells was studied by penetration of monolayers and confocal laser microscopy. Chromofungin is able to interact with the cell wall, to cross the plasma membrane, to accumulate in the microorganism, and to inhibit calcineurin activity.

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Characterization of Antibacterial COOH-terminal Proenkephalin-A-derived Peptides (PEAP) in Infectious Fluids

Goumon¹,

Lugardon²,

Kieffer³

et al. 1998

Journal of Biological Chemistry

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Karine Lugardon

Antibacterial and Antifungal Activities of Vasostatin-1, the N-terminal Fragment of Chromogranin A

Antibacterial Activity of Glycosylated and Phosphorylated Chromogranin A-derived Peptide 173-194 from Bovine Adrenal Medullary Chromaffin Granules

Structural and Biological Characterization of Chromofungin, the Antifungal Chromogranin A-(47–66)-derived Peptide

Structural and Biological Characterization of Chromofungin, the Antifungal Chromogranin A (47‐66)‐Derived Peptide

Characterization of Antibacterial COOH-terminal Proenkephalin-A-derived Peptides (PEAP) in Infectious Fluids

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