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1.
J Med Microbiol ; 61(Pt 6): 793-799, 2012 Jun.
Artigo em Inglês | MEDLINE | ID: mdl-22361459

RESUMO

Non-thermal plasma (NTP) is a flow of partially ionized argon gas at an ambient macroscopic temperature and is microbicidal for bacteria, viruses and fungi. Viability of the Gram-negative obligate intracellular bacterial parasite Chlamydia trachomatis and its host cells was investigated after NTP treatment. NTP treatment of C. trachomatis extracellular elementary bodies (EBs) diminished the concentration of infectious bacteria by a factor of 9×10(4), as established by the parallel infection of murine fibroblast McCoy cells with treated and control EBs. NTP treatment of infected McCoy cells caused disruption of membrane-restricted vacuoles (inclusions), where C. trachomatis intracellular reticulate bodies (RBs) multiply, and a 2×10(6)-fold reduction in the concentration of infectious bacteria. When the samples were covered with magnesium fluoride glass to obstruct plasma particles and UV rays alone were applied, the bactericidal effect was reduced 1.4×10(1)-fold and 5×10(4)-fold for EBs and RBs, respectively. NTP treatment caused the viability of host McCoy cells to diminish by 19%. Therefore, the results obtained demonstrated that (i) both extracellular and intracellular forms of C. trachomatis are sensitive to NTP treatment; (ii) the reduction in concentration of infectious bacteria after NTP treatment of infected cells is superior to the reduction in viability of host cells; and (iii) the effect of NTP on intracellular bacteria does not depend on UV rays.


Assuntos
Antibacterianos/farmacologia , Argônio/farmacologia , Chlamydia trachomatis/efeitos dos fármacos , Viabilidade Microbiana/efeitos dos fármacos , Gases em Plasma/farmacologia , Animais , Carga Bacteriana , Fibroblastos/microbiologia , Camundongos
2.
World J Hepatol ; 2(2): 74-80, 2010 Feb 27.
Artigo em Inglês | MEDLINE | ID: mdl-21160976

RESUMO

AIM: To evaluate the direct binding of two main chlamydial biovars (C. trachomatis and C. pneumoniae) to plasma lipoproteins and its effect on chlamydial infection rate in human hepatoma cell line (HepG2 cells). METHODS: Murine plasma lipoproteins were fractionated and isolated using fast-performance liquid chromatography (FPLC), spotted on nitrocellulose membrane and incubated with chlamydial suspensions. Direct binding of chlamydial particles to lipoprotein fractions has been studied using lipopolysaccharide-specific antibodies in immuno-dot blot binding assay and immunoprecipitation analysis. Immunostaining protocol as well as flow cytometry analysis have been employed to study the infectivity rate of chlamydial species in HepG2 cells. RESULTS: Elementary bodies of both C. trachomatis and C. pneumoniae bind ApoB-containing fractions of plasma lipoproteins. That binding becomes stronger when heat-denatured FPLC fractions are used, suggesting a primary role of apolipoproteins in interaction between chlamydial particle and lipoprotein. Both chlamydial biovars efficiently propagate in human hepatoma cell line - HepG2 cells even in serum free conditions forming late-stage inclusion bodies and releasing extracellular elementary bodies. Preincubation of C. trachomatis and C. pneumoniae with native ApoB-containing lipoproteins enhances the rate of chlamydial infection in HepG2 cells. CONCLUSION: A productive infection caused by C. trachomatis and C. pneumoniae may take place in human-derived hepatocytes revealing hepatic cells as possible target in chlamydial infection. Obtained results may suggest the participation of lipoprotein receptors in the mechanism of attachment and/or entry of chlamydial particles into target cells.

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