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1.
J Nanobiotechnology ; 19(1): 12, 2021 Jan 07.
Article in English | MEDLINE | ID: mdl-33413448

ABSTRACT

BACKGROUND: After the golden age of antibiotic discovery, bacterial infections still represent a major challenge for public health worldwide. The biofilm mode of growth is mostly responsible for chronic infections that current therapeutics fail to cure and it is well-established that novel strategies must be investigated. Particulate drug delivery systems are considered as a promising strategy to face issues related to antibiotic treatments in a biofilm context. Particularly, poly-lactic acid (PLA) nanoparticles present a great interest due to their ability to migrate into biofilms thanks to their submicronic size. However, questions still remain unresolved about their mode of action in biofilms depending on their surface properties. In the current study, we have investigated the impact of their surface charge, firstly on their behavior within a bacterial biofilm, and secondly on the antibiotic delivery and the treatment efficacy. RESULTS: Rifampicin-loaded PLA nanoparticles were synthetized by nanoprecipitation and characterized. A high and superficial loading of rifampicin, confirmed by an in silico simulation, enabled to deliver effective antibiotic doses with a two-phase release, appropriate for biofilm-associated treatments. These nanoparticles were functionalized with poly-L-lysine, a cationic peptide, by surface coating inducing charge reversal without altering the other physicochemical properties of these particles. Positively charged nanoparticles were able to interact stronger than negative ones with Staphylococcus aureus, under planktonic and biofilm modes of growth, leading to a slowed particle migration in the biofilm thickness and to an improved retention of these cationic particles in biofilms. While rifampicin was totally ineffective in biofilms after washing, the increased retention capacity of poly-L-lysine-coated rifampicin-loaded PLA nanoparticles has been associated with a better antibiotic efficacy than uncoated negatively charged ones. CONCLUSIONS: Correlating the carrier retention capacity in biofilms with the treatment efficacy, positively charged rifampicin-loaded PLA nanoparticles are therefore proposed as an adapted and promising approach to improve antibiotic delivery in S. aureus biofilms.


Subject(s)
Anti-Bacterial Agents/chemistry , Biofilms/drug effects , Nanoparticles/chemistry , Polyesters/chemistry , Rifampin , Staphylococcus aureus/drug effects , Drug Delivery Systems , Drug Liberation , Lactic Acid/chemistry , Microbial Sensitivity Tests , Staphylococcal Infections , Surface Properties
2.
J Cell Biol ; 219(11)2020 11 02.
Article in English | MEDLINE | ID: mdl-32960945

ABSTRACT

Proteins of the ezrin, radixin, and moesin (ERM) family control cell and tissue morphogenesis. We previously reported that moesin, the only ERM in Drosophila, controls mitotic morphogenesis and epithelial integrity. We also found that the Pp1-87B phosphatase dephosphorylates moesin, counteracting its activation by the Ste20-like kinase Slik. To understand how this signaling pathway is itself regulated, we conducted a genome-wide RNAi screen, looking for new regulators of moesin activity. We identified that Slik is a new member of the striatin-interacting phosphatase and kinase complex (STRIPAK). We discovered that the phosphatase activity of STRIPAK reduces Slik phosphorylation to promote its cortical association and proper activation of moesin. Consistent with this finding, inhibition of STRIPAK phosphatase activity causes cell morphology defects in mitosis and impairs epithelial tissue integrity. Our results implicate the Slik-STRIPAK complex in the control of multiple morphogenetic processes.


Subject(s)
Drosophila Proteins/metabolism , Drosophila melanogaster/growth & development , Epithelial Cells/physiology , Mitosis , Morphogenesis , Protein Serine-Threonine Kinases/metabolism , RNA, Small Interfering/genetics , Animals , Drosophila Proteins/antagonists & inhibitors , Drosophila Proteins/genetics , Drosophila melanogaster/genetics , Drosophila melanogaster/metabolism , Epithelial Cells/cytology , High-Throughput Screening Assays , Microfilament Proteins/genetics , Microfilament Proteins/metabolism , Multiprotein Complexes/metabolism , Phosphorylation , Phosphotransferases/genetics , Phosphotransferases/metabolism , Protein Serine-Threonine Kinases/genetics
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