Membrane Core-Specific Antimicrobial Action of Cathelicidin LL-37 Peptide Switches Between Pore and Nanofibre Formation

Shahmiri, Mahdi; Enciso, Marta; Adda, Christopher G.; Smith, Brian J.; Perugini, Matthew A.; Mechler, Ádám

doi:10.1038/srep38184

Cited by 65 publications

(77 citation statements)

References 55 publications

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“…6 ). Also in line with our observation of fiber-like structures are reports demonstrating the formation of one-dimensional peptide chains by the designer peptide LAH4, BTD-2 and LL-37 on vesicles pointing towards a similar mode of self-organization patterning 24 – 27 . However, these observations are only indirect, using imaging techniques, while our structures are at the atomic level and show the fiber assembly.…”

Section: Discussionsupporting

confidence: 90%

Structural remodeling and oligomerization of human cathelicidin on membranes suggest fibril-like structures as active species

Sancho‐Vaello

François

Bonetti

et al. 2017

Sci Rep

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Antimicrobial peptides as part of the mammalian innate immune system target and remove major bacterial pathogens, often through irreversible damage of their cellular membranes. To explore the mechanism by which the important cathelicidin peptide LL-37 of the human innate immune system interacts with membranes, we performed biochemical, biophysical and structural studies. The crystal structure of LL-37 displays dimers of anti-parallel helices and the formation of amphipathic surfaces. Peptide-detergent interactions introduce remodeling of this structure after occupation of defined hydrophobic sites at the dimer interface. Furthermore, hydrophobic nests are shaped between dimer structures providing another scaffold enclosing detergents. Both scaffolds underline the potential of LL-37 to form defined peptide-lipid complexes in vivo. After adopting the activated peptide conformation LL-37 can polymerize and selectively extract bacterial lipids whereby the membrane is destabilized. The supramolecular fibril-like architectures formed in crystals can be reproduced in a peptide-lipid system after nanogold-labelled LL-37 interacted with lipid vesicles as followed by electron microscopy. We suggest that these supramolecular structures represent the LL-37-membrane active state. Collectively, our study provides new insights into the fascinating plasticity of LL-37 demonstrated at atomic resolution and opens the venue for LL-37-based molecules as novel antibiotics.

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Section: Discussionsupporting

confidence: 90%

Structural remodeling and oligomerization of human cathelicidin on membranes suggest fibril-like structures as active species

Sancho‐Vaello

François

Bonetti

et al. 2017

Sci Rep

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“…In the first step, LL-37 interacts with LPS and LTA and possibly removes part of these molecules from the cell wall (Neville et al, 2006 ). In the second step, according to our own data and the data of others implies that LL-37 can specifically interact with membranes or even specifically with individual lipid head groups via a multi-step mechanism (Scientific reports in press; Shahmiri et al, 2016 ; Figure 2D ). This mechanism is more complicated than the simple toroidal model, where the monomeric peptide assembles on the membrane to form holes on lipid-peptide complexes (Ludtke et al, 1996 ; Matsuzaki et al, 1996 ).…”

Section: Ll-37 Assembles Into Fiber-like Structures As An Intermediatmentioning

confidence: 53%

“…These fiber-like structures could also be detected on vesicles using gold-labeled LL-37 and electron microscopy as imaging technique (Scientific reports in press). LL-37 has previously been shown to restructure lipid vesicles into elongated structures, possibly based on the formation of a similar supramolecular structure (Shahmiri et al, 2016 ). The formation of such fiber-like structures has been described previously for the synthetic peptides LAH4 and BTD-2 (Aisenbrey and Bechinger, 2014 ; Wang et al, 2016 ; Figure 2E ).…”

Section: Ll-37 Assembles Into Fiber-like Structures As An Intermediatmentioning

confidence: 99%

“…(E) Related models and experimental data which were recently published in the literature are based on fluorescence techniques applied to LAH4, crystallography and analysis of crystal packing of BTD-2 and electron microscopy of LL-37 mixed with lipid vesicles (Aisenbrey and Bechinger, 2014 ; Shahmiri et al, 2016 ; Wang et al, 2016 ). LL-37 TEM figure is reprinted from Shahmiri et al ( 2016 ) published in open-access under CC BY 4.0 license. LAH4 figure is reprinted with permission from by Aisenbrey and Bechinger ( 2014 ).…”

Section: Ll-37 Assembles Into Fiber-like Structures As An Intermediatmentioning

confidence: 99%

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The Human Antimicrobial Peptides Dermcidin and LL-37 Show Novel Distinct Pathways in Membrane Interactions

Zeth

Sancho‐Vaello

2017

Front. Chem.

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Mammals protect themselves from inflammation triggered by microorganisms through secretion of antimicrobial peptides (AMPs). One mechanism by which AMPs kill bacterial cells is perforating their membranes. Membrane interactions and pore formation were investigated for α-helical AMPs leading to the formulation of three basic mechanistic models: the barrel stave, toroidal, and carpet model. One major drawback of these models is their simplicity. They do not reflect the real in vitro and in vivo conditions. To challenge and refine these models using a structure-based approach we set out to investigate how human cathelicidin (LL-37) and dermcidin (DCD) interact with membranes. Both peptides are α-helical and their structures have been solved at atomic resolution. DCD assembles in solution into a hexameric pre-channel complex before the actual membrane targeting and integration step can occur, and the complex follows a deviation of the barrel stave model. LL-37 interacts with lipids and shows the formation of oligomers generating fibril-like supramolecular structures on membranes. LL-37 further assembles into transmembrane pores with yet unknown structure expressing a deviation of the toroidal pore model. Both of their specific targeting mechanisms will be discussed in the context of the “old” models propagated in the literature.

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“…For example, Helicobacter pylori displays resistance to LL-37 that is dependent on scavenging and utilization of host cholesterol (20). Interestingly, LL-37 can induce some degree of leakage in unsaturated and cholesterol-containing membranes (21). LL-37 displays candidacidal activity by targeting the fungal membrane, resulting in complete membrane disintegration and efflux of cellular ATP and protein (22).…”

mentioning

confidence: 99%

The Human Cathelicidin Antimicrobial Peptide LL-37 Promotes the Growth of the Pulmonary Pathogen Aspergillus fumigatus

et al. 2018

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The pulmonary mucus of cystic fibrosis (CF) patients displays elevated levels of the cathelicidin antimicrobial peptide LL-37 and the aim of this work was to assess the effect of LL-37 on the growth of , a common pathogen of CF patients. Exposure of to LL-37 and its derived fragment RK-31 (1.95 μg/ml) for 24 hours had a positive effect on growth (199.94 ± 6.172%, p < 0.05) and (218.20 ± 4.63%, p < 0.05) respectively, whereas scrambled LL-37 peptide did not (85.12 ± 2.92%). Exposure of 24 hour pre-formed mycelium to 5 μg/ml intact LL-37 for 48 hours increased hyphal wet weight (4.37 ± 0.23 g, p < 0.001) compared to the control (2.67 ± 0.05 g) and scrambled LL-37 (2.23 ± 0.09 g) treatments. Gliotoxin secretion was increased at 24 hours from LL-37 exposed hyphae (169.1 ± 6.36 ng/mg hyphae, p < 0.05) compared to the control (102 ± 18.81 ng/mg hyphae) and scrambled LL-37 (96.09 ± 15.15 ng/mg hyphae) treatments. Shotgun proteomic analysis of 24 hour LL-37 treated hyphae revealed an increase in the abundance of proteins associated with growth (eIF-5A (16.3 fold increased), tissue degradation (aspartic endopeptidase (4.7 fold increased)) and allergic reactions (Asp F13 (10 fold increased)). By 48 hour there was an increase in proteins indicative of cellular stress (glutathione peroxidase (9 fold increased)), growth (eIF-5A (6 fold increased)), and virulence (ribonuclease mitogillin (3.7 fold increased)). These results indicate that LL-37 stimulates growth and this may result in increased fungal growth and secretion of toxins in the lungs of CF patients.

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Membrane Core-Specific Antimicrobial Action of Cathelicidin LL-37 Peptide Switches Between Pore and Nanofibre Formation

Cited by 65 publications

References 55 publications

Structural remodeling and oligomerization of human cathelicidin on membranes suggest fibril-like structures as active species

Structural remodeling and oligomerization of human cathelicidin on membranes suggest fibril-like structures as active species

The Human Antimicrobial Peptides Dermcidin and LL-37 Show Novel Distinct Pathways in Membrane Interactions

The Human Cathelicidin Antimicrobial Peptide LL-37 Promotes the Growth of the Pulmonary Pathogen Aspergillus fumigatus

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