Cristina Ciornei scite author profile

Antimicrobial peptides have been evaluated in vitro and in vivo as alternatives to conventional antibiotics. Apart from being antimicrobial, the native human cathelicidin-derived peptide LL-37 (amino acids [aa] 104 to 140 of the human cathelicidin antimicrobial peptide) also binds and neutralizes bacterial lipopolysaccharide (LPS) and might therefore have beneficial effects in the treatment of septic shock. However, clinical trials have been hampered by indications of toxic effects of LL-37 on mammalian cells and evidence that its antimicrobial effects are inhibited by serum. For the present study, LL-37 was compared to two less hydrophobic fragments obtained by N-terminal truncation, named 106 (aa 106 to 140) and 110 (aa 110 to 140), and to a previously described more hydrophobic variant, the 18-mer LLKKK, concerning antimicrobial properties, lipopolysaccharide neutralization, toxicity against human erythrocytes and cultured vascular smooth muscle cells, chemotactic activity, and inhibition by serum. LL-37, fragments 106 and 110, and the 18-mer LLKKK inhibited the growth of Escherichia coli, Pseudomonas aeruginosa, Staphylococcus aureus, and Candida albicans in a radial diffusion assay, inhibited lipopolysaccharide-induced vascular nitric oxide production, and attracted neutrophil granulocytes similarly. While fragments 106 and 110 caused less hemolysis and DNA fragmentation in cultured cells than did LL-37, the 18-mer LLKKK induced severe hemolysis. The antibacterial effect of fragments 106 and 110 was not affected by serum, while the effect of LL-37 was reduced. We concluded that the removal of N-terminal hydrophobic amino acids from LL-37 decreases its cytotoxicity as well as its inhibition by serum without negatively affecting its antimicrobial or LPS-neutralizing action. Such LL-37-derived peptides may thus be beneficial for the treatment of patients with sepsis.

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Biofilm-forming Pseudomonas aeruginosa bacteria undergo lipopolysaccharide structural modifications and induce enhanced inflammatory cytokine response in human monocytes

Ciornei

Новиков

Beloin

et al. 2009

Innate Immun

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To determine whether growth of bacteria in biofilms triggers a specific immune response, we compared cytokine induction in human monocytes and mouse macrophages by planktonic and biofilm bacteria. We compared Pseudomonas aeruginosa and Staphylococcus aureus, two bacteria often colonizing the airways of cystic fibrosis patients. Planktonic and biofilm S. aureus induced equivalent amounts of cytokine in human monocytes. In contrast, biofilm-forming P. aeruginosa induced a higher production of tumor necrosis factor and interleukin-6 than their planktonic counterpart, both for clinical isolates and laboratory strains. This increased cytokine production was partly dependent on phagocytosis. In contrast, no difference in cytokine induction was observed with mouse macrophages. We investigated the structures of the lipopolysaccharides (LPSs) of these Gram-negative bacteria in biofilm and planktonic cultures of P. aeruginosa. Switch between the two life-styles was shown to cause several reversible LPS structure modifications affecting the lipid A and polysaccharide moieties of both clinical isolates and laboratory strains. In addition, LPS isolated from biofilm-grown bacteria induced slightly more inflammatory cytokines than that extracted from its planktonic counterpart. Our results, therefore, show that P. aeruginosa biofilm LPS undergoes structural modifications that only partially contribute to an increased inflammatory response from human monocytes.

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Human antimicrobial peptide LL-37 is present in atherosclerotic plaques and induces death of vascular smooth muscle cells: a laboratory study

Ciornei

Tapper

Bjartell

et al. 2006

BMC Cardiovasc Disord

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Background: Death of smooth muscle cells in the atherosclerotic plaques makes the plaques more prone to rupture, which can initiate an acute ischemic event. The development of atherosclerosis includes the migration of immune cells e.g. monocytes/macrophages and T lymphocytes into the lesions. Immune cells can release antimicrobial peptides. One of these, human cathelicidin antimicrobial peptide hCAP-18, is cleaved by proteinase 3 generating a 4.5 kDa C-terminal fragment named LL-37, which has been shown to be cytotoxic. The aim of the study was to explore a potential role of LL-37 in the pathophysiology of atherosclerosis.

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Effects of human cathelicidin antimicrobial peptide LL‐37 on lipopolysaccharide‐induced nitric oxide release from rat aorta in vitro

Ciornei

Egesten

Bodelsson

2003

Acta Anaesthesiol Scand

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Background: Lipopolysaccharides (LPS), released by Gram‐negative bacteria, cause vascular expression of inducible nitric oxide synthase (iNOS) leading to nitric oxide (NO) production and septic shock. Human cathelicidin antimicrobial peptide (LL‐37) can bind and neutralize LPS. We wanted to study whether LL‐37 affects LPS or interleukin‐1β (IL‐1β)‐induced production, release and function of NO in intact rat aorta rings and cultured rat aorta smooth muscle cells.Methods: Isolated segments of thoracic aorta and cultured cells were incubated in the presence of LPS, LL‐37, LPS + IL‐37, IL‐1β, IL‐1β + IL‐37 or in medium alone. Smooth muscle contraction in response to phenylephrine and accumulation of the sdegradation products of NO, nitrate and nitrite, were measured on aorta segments. Levels of iNOS were assessed by Western blot and cytotoxic effects were detected by measurement of DNA fragmentation in cultured cells. Number of viable cells were determined after Trypan blue treatment.Results: Both LPS and IL‐1β reduced contractility in response to phenylephrine and increased NO production as well as iNOS expression. LL‐37 inhibited the LPS depression of vascular contractility induced only by LPS. LL‐37 reduced both the LPS‐ and IL‐1β‐induced NO production and iNOS expression. LL‐37 at high concentrations induced DNA fragmentation and decreased the number of living cells.Conclusion: IL‐37 reduces NO production induced by LPS and IL‐1β. The reduction does not seem to result only from neutralization of LPS but also from a cytotoxic effect, possibly via induction of apoptosis.

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Clear cell sarcoma of the kidney demonstrates an embryonic signature indicative of a primitive nephrogenic origin

Karlsson

Mengelbier

Ciornei³

et al. 2014

Genes Chromosomes & Cancer

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Clear cell sarcoma of the kidney (CCSK) is a tumor affecting children with a median age of 3 years at diagnosis. The cell of origin of CCSK is unknown and data on the molecular changes giving rise to CCSK is scarce. This has hindered the identification of positive diagnostic markers and development of molecularly targeted treatment protocols for CCSK. We have characterized a panel of CCSK to gain information regarding its molecular profile and possible origin. High-resolution genomic analysis with single nucleotide polymorphism array of 37 tumors did not reveal any clues to the mechanisms behind tumor development as remarkably few genetic imbalances were found. Gene expression analysis revealed a highly characteristic gene signature, enriched for pathways involved in embryonic development, including kidney formation. The presence of markers for two different developmental lineages in the embryonic kidney was therefore investigated in the tumor cells. FOXD1 which identifies cells giving rise to stromal elements, and CITED1, a marker for cells primed for nephrogenic epithelial differentiation, were both highly expressed in CCSK. In addition, the early embryonic marker OSR1 was expressed at higher levels in CCSK than in Wilms tumor, normal fetal kidney or adult kidney. As this marker discriminates the intermediate mesoderm from other mesodermal structures, our study could suggest that CCSK arises from a mesodermal cell type that retains the capacity to initiate differentiation towards both nephrons and stroma, but remains locked in a primitive state.

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