Literature DB >> 31750420

Antibiotic-Derived Lipid Nanoparticles to Treat Intracellular Staphylococcus aureus.

Chengxiang Zhang1, Weiyu Zhao1, Cong Bian2, Xucheng Hou1, Binbin Deng3, David W McComb3,4, Xiaofang Chen1,2, Yizhou Dong1,5,6,7,8,6.   

Abstract

Intracellular survival of pathogenic bacteria leads to high chances of bacterial persistence and relapse in the bacteria-infected host. However, many antibiotics fail to clear the intracellular bacteria due to their low internalization by cells. In order to increase delivery of antibiotics in cells and eliminate intracellular bacteria, we developed antibiotic-derived lipid nanoparticles. First, we synthesized antibiotic-derived lipid conjugates using two widely used antibiotics including penicillin G (PenG) and levofloxacin (Levo). Then, we formulated them into antibiotic-derived lipid nanoparticles and evaluated their antibacterial effects. We found that penicillin G derived phospholipid nanoparticles (PenG-PL NPs) were able to enhance cellular uptake of penicillin G as compared with free penicillin G and eliminate up to 99.9998% of ~108.5 intracellular methicillin sensitive Staphylococcus aureus (S. aureus) in infected A549 cells, a lung epithelial cell line. The PenG-PL NPs showed the potential for inhibiting intracellular S. aureus and are promising to be further studied for in vivo antibacterial applications.

Entities:  

Keywords:  antibiotic-derived lipid nanoparticles; intracellular bacteria; penicillin G derived phospholipid

Year:  2019        PMID: 31750420      PMCID: PMC6867687          DOI: 10.1021/acsabm.8b00821

Source DB:  PubMed          Journal:  ACS Appl Bio Mater        ISSN: 2576-6422


  34 in total

Review 1.  Cellular pharmacodynamics and pharmacokinetics of antibiotics: current views and perspectives.

Authors:  Françoise Van Bambeke; Maritza Barcia-Macay; Sandrine Lemaire; Paul M Tulkens
Journal:  Curr Opin Drug Discov Devel       Date:  2006-03

2.  Particle engineering for intracellular delivery of vancomycin to methicillin-resistant Staphylococcus aureus (MRSA)-infected macrophages.

Authors:  Yihua Pei; Mohamed F Mohamed; Mohamed N Seleem; Yoon Yeo
Journal:  J Control Release       Date:  2017-08-07       Impact factor: 9.776

Review 3.  Reducing Bacterial Infections and Biofilm Formation Using Nanoparticles and Nanostructured Antibacterial Surfaces.

Authors:  Gujie Mi; Di Shi; Mian Wang; Thomas J Webster
Journal:  Adv Healthc Mater       Date:  2018-05-22       Impact factor: 9.933

Review 4.  Engineering of obligate intracellular bacteria: progress, challenges and paradigms.

Authors:  Erin E McClure; Adela S Oliva Chávez; Dana K Shaw; Jason A Carlyon; Roman R Ganta; Susan M Noh; David O Wood; Patrik M Bavoil; Kelly A Brayton; Juan J Martinez; Jere W McBride; Raphael H Valdivia; Ulrike G Munderloh; Joao H F Pedra
Journal:  Nat Rev Microbiol       Date:  2017-06-19       Impact factor: 60.633

Review 5.  Nanoparticle-based local antimicrobial drug delivery.

Authors:  Weiwei Gao; Yijie Chen; Yue Zhang; Qiangzhe Zhang; Liangfang Zhang
Journal:  Adv Drug Deliv Rev       Date:  2017-09-20       Impact factor: 15.470

Review 6.  Are bloodstream leukocytes Trojan Horses for the metastasis of Staphylococcus aureus?

Authors:  Guy E Thwaites; Vanya Gant
Journal:  Nat Rev Microbiol       Date:  2011-02-07       Impact factor: 60.633

7.  Uniform fluorescent nanobioprobes for pathogen detection.

Authors:  Ling-Hong Xiong; Ran Cui; Zhi-Ling Zhang; Xu Yu; Zhixiong Xie; Yun-Bo Shi; Dai-Wen Pang
Journal:  ACS Nano       Date:  2014-05-02       Impact factor: 15.881

Review 8.  Staphylococcus aureus: new evidence for intracellular persistence.

Authors:  Christian Garzoni; William L Kelley
Journal:  Trends Microbiol       Date:  2009-02-07       Impact factor: 17.079

9.  An efficient system for intracellular delivery of beta-lactam antibiotics to overcome bacterial resistance.

Authors:  Nadia Abed; Fatouma Saïd-Hassane; Fatima Zouhiri; Julie Mougin; Valérie Nicolas; Didier Desmaële; Ruxandra Gref; Patrick Couvreur
Journal:  Sci Rep       Date:  2015-08-27       Impact factor: 4.379

10.  Novel Insights into Staphylococcus aureus Deep Bone Infections: the Involvement of Osteocytes.

Authors:  Dongqing Yang; Asiri R Wijenayaka; Lucian B Solomon; Stephen M Pederson; David M Findlay; Stephen P Kidd; Gerald J Atkins
Journal:  MBio       Date:  2018-04-24       Impact factor: 7.867
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  6 in total

Review 1.  Nano-fats for bugs: the benefits of lipid nanoparticles for antimicrobial therapy.

Authors:  Chelsea R Thorn; Nicky Thomas; Ben J Boyd; Clive A Prestidge
Journal:  Drug Deliv Transl Res       Date:  2021-03-05       Impact factor: 4.617

Review 2.  Nanoantibiotics: Functions and Properties at the Nanoscale to Combat Antibiotic Resistance.

Authors:  M Mustafa Mamun; Adeola Julian Sorinolu; Mariya Munir; Eric P Vejerano
Journal:  Front Chem       Date:  2021-05-13       Impact factor: 5.221

3.  Combinatorial Library of Cyclic Benzylidene Acetal-Containing pH-Responsive Lipidoid Nanoparticles for Intracellular mRNA Delivery.

Authors:  Yamin Li; Raissa Li; Anirban Chakraborty; Roza Ogurlu; Xuewei Zhao; Jinjin Chen; Qiaobing Xu
Journal:  Bioconjug Chem       Date:  2020-06-24       Impact factor: 6.069

4.  Multifunctional lipid-based nanocarriers with antibacterial and anti-inflammatory activities for treating MRSA bacteremia in mice.

Authors:  Chia-Chih Liao; Huang-Ping Yu; Shih-Chun Yang; Ahmed Alalaiwe; You-Shan Dai; Fu-Chao Liu; Jia-You Fang
Journal:  J Nanobiotechnology       Date:  2021-02-15       Impact factor: 10.435

Review 5.  Advances in Nanostructures for Antimicrobial Therapy.

Authors:  Josef Jampilek; Katarina Kralova
Journal:  Materials (Basel)       Date:  2022-03-24       Impact factor: 3.623

Review 6.  Can intracellular Staphylococcus aureus in osteomyelitis be treated using current antibiotics? A systematic review and narrative synthesis.

Authors:  Anja R Zelmer; Renjy Nelson; Katharina Richter; Gerald J Atkins
Journal:  Bone Res       Date:  2022-08-12       Impact factor: 13.362
  6 in total

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