Vers une meilleure compréhension de l'aminopeptidase B (Ap-B) (obtention d'outils moléculaires et expression du gène au cours du développement de la rétine de rat)

PARIS-BIUSJ-Thèses (751052125) / SudocPARIS-BIUSJ-Physique recherche (751052113) / SudocSudocFranceF

Pachymodulin, a new functional formyl peptide receptor 2 (FPR2) peptidic ligand isolated from frog skin, has Janus-like immunomodulatory capacities.

International audienceRecruitment of leukocytes is essential in order to fight infections or to heal injuries; however excessive and/or prolonged responses favor the development of major inflammatory pathologies, such as cardiovascular or neurodegenerative diseases. Thus, it is of great interest to seek for novel compounds that can regulate leukocytes recruitment depending on the degree of inflammation. We have isolated and characterized by different chromatographic techniques, mass spectrometry and Edman sequencing a new hexapeptide (SSLSKL) from the Mexican frog Pachymedusa dacnicolor, which we named Pachymodulin. In vitro, pachymodulin promotes the migration of leukocytes through the binding and activation of the human and mouse N-formyl peptide receptor 2 (huFPR2). In vivo, it exhibits opposite biological activities: under homeostatic conditions, pachymodulin induces the recruitment of leukocytes, whereas under inflammatory conditions, it inhibits this process. Therefore, Pachymodulin represents an interesting template in the quest to design new immunomodulatory drugs in the therapy of immune-related diseases

Engineering of Antimicrobial Surfaces by Using Temporin Analogs to Tune the Biocidal/antiadhesive Effect

Proliferation of resistant bacteria on biomaterials is a major problem leading to nosocomial infections. Due to their broad-spectrum activity and their ability to disrupt bacterial membranes through a rapid membranolytic mechanism, antimicrobial peptides (AMPs) are less susceptible to the development of bacterial resistance and therefore represent good candidates for surface coating strategies to prevent biofilm formation. In this study, we report on the covalent immobilization of temporin-SHa, a small hydrophobic and low cationic antimicrobial peptide exhibiting broad-spectrum activity, and (SHa) analogs on modified gold surfaces. Several analogs derived from SHa with either a carboxamidated ([K3]SHa, d-[K3]SHa) or a carboxylated C-terminus ([K3]SHa-COOH) were used to achieve peptide grafting on gold surfaces modified by a thiolated self-assembled monolayer (SAM). Surface functionalization was characterized by polarization modulation infrared reflection absorption spectroscopy (PM-RAIRS) and X-ray photoemission spectroscopy (XPS). The antibacterial properties of the temporin-functionalized surfaces were tested against the Gram-positive Listeria ivanovii. Direct visualization of the peptide effects on the bacterial membrane was investigated by scanning electron microscopy equipped with a field emission gun (SEM-FEG). All active temporin analogs were successfully grafted and display significant antibacterial activity (from 80 to 90% killing efficiency) in addition to a 2-fold decrease of bacterial adhesion when all d-SHa analogs were used

Structural malleability of plasticins: Preorganized conformations in solution and relevance for antimicrobial activity

International audiencePlasticins (23 long residue glycine-leucine-rich dermaseptin-related peptides produced by the skin of South American hylids) have very similar amino acid sequences, hydrophobicities, and amphipathicities, but differ in their membrane-damaging properties and structurations (i.e. destabilized helix states, beta-hairpin, beta-sheet, and disordered states) at anionic and zwitterionic membrane interfaces. Structural malleability of plasticins in aqueous solutions together with parameters that may govern their ability to fold within beta-hairpin like structures were analyzed through circular dichroism and FTIR spectroscopic studies completed by molecular dynamics simulations in polar mimetic media. The goal of this study was to probe to which extent pre-existent peptide conformations, i.e. intrinsic ``conformational landscape'', may be responsible for variability in bioactive conformation and antimicrobial/hemolytic mechanisms of action of these peptides in relation with their various membrane disturbing properties. All plasticins present a turn region that does not always result in folding into a beta-hairpin shaped conformation. Residue at position 8 plays a major role in initiating the folding, while position 12 is not critical. Conformational stability has no major impact on antimicrobial efficacy. However, preformed beta-hairpin in solution may act as a conformational lock that prevents switch to alpha-helical structure. This lock lowers the antimicrobial efficiency and explains subtle differences in potencies of the most active antimicrobial plasticins

Development and Characterization of Innovative Multidrug Nanoformulation for Cardiac Therapy

International audienceFor several decades, various peptides have been under investigation to prevent ischemia/reperfusion (I/R) injury, including cyclosporin A (CsA) and Elamipretide. Therapeutic peptides are currently gaining momentum as they have many advantages over small molecules, such as better selectivity and lower toxicity. However, their rapid degradation in the bloodstream is a major drawback that limits their clinical use, due to their low concentration at the site of action. To overcome these limitations, we have developed new bioconjugates of Elamipretide by covalent coupling with polyisoprenoid lipids, such as squalenic acid or solanesol, embedding self-assembling ability. The resulting bioconjugates were co-nanoprecipitated with CsA squalene bioconjugate to form Elamipretide decorated nanoparticles (NPs). The subsequent composite NPs were characterized with respect to mean diameter, zeta potential, and surface composition by Dynamic Light Scattering (DLS), Cryogenic Transmission Electron Microscopy (CryoTEM) and X-ray Photoelectron Spectrometry (XPS). Further, these multidrug NPs were found to have less than 20% cytotoxicity on two cardiac cell lines even at high concentrations, while maintaining an antioxidant capacity. These multidrug NPs could be considered for further investigations as an approach to target two important pathways involved in the development of cardiac I/R lesions

Pachymodulin, a New Functional Formyl Peptide Receptor 2 Peptidic Ligand Isolated from Frog Skin Has Janus-like Immunomodulatory Capacities

Recruitment of leukocytes is essential to fight infections or to heal injuries; however, excessive and/or prolonged responses favor the development of major inflammatory pathologies, such as cardiovascular or neurodegenerative diseases. Thus, it is of great interest to seek novel compounds that can regulate leukocyte recruitment depending on the degree of inflammation. We have isolated and characterized, by different chromatographic techniques, mass spectrometry, and Edman sequencing, a new hexapeptide (SSLSKL) from the Mexican frog <i>Pachymedusa dacnicolor,</i> which we named pachymodulin. In vitro, pachymodulin promotes the migration of leukocytes through the binding and activation of the human and mouse <i>N</i>-formyl peptide receptor 2 (huFPR2). In vivo, it exhibits opposite biological activities: under homeostatic conditions, pachymodulin induces the recruitment of leukocytes, whereas under inflammatory conditions, it inhibits this process. Therefore, pachymodulin represents an interesting template in the quest to design new immunomodulatory drugs in the therapy of immune-related diseases

The effects of curcumin, mangiferin, resveratrol and other natural plant products on aminopeptidase B activity

International audienceAminopeptidase B (Ap-B) is a Zn2+-aminopeptidase of the M1 family which is implicated, in conjunction with the nardilysin endoprotease, in the generation of miniglucagon, a peptide involved in the maintenance of glucose homeostasis. Other in vivo physiological roles have been established for this vertebrate enzyme, such as the processing of Arg-extended forms of human insulin and cholecystokinin 9 and the degradation of viral epitopes in the cytoplasm. Among M1 family members, Ap-B is phylogenetically close to leukotriene A4 hydrolase (LTA4H), a bi-functional aminopeptidase also able to transform LTA4 in LTB4 (a lipid mediator of inflammation). As the activities of LTA4H are reported to be inhibited by resveratrol, a polyphenolic molecule from red wine, the effect of this molecule was investigated on the Ap-B activity. Several other active phenolic compounds produced in plants were also tested. Among them, curcumin and mangiferin are the most effective inhibitors. Dixon analysis indicates that curcumin is a non-competitive inhibitor with a Ki value of 46 μmol.L−1. Dixon and Lineweaver-Burk representations with mangiferin show a mixed non-competitive inhibition with Ki’ and Ki values of 194 μmol.L−1 and 105 μmol.L−1, respectively. At 200 μmol.L−1, no significant effect was observed with caffeic, chlorogenic, ferulic, salicylic and sinapic acids as well as with resveratrol. Analyses on the 3D-structure of LTA4H with resveratrol (pdb: 3FTS) and the Ap-B 3D-model allow hypothesis to explain theses results