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Water-Filtered Infrared A Irradiation in Combination with Visible Light Inhibits Acute Chlamydial Infection

New therapeutic strategies are needed to overcome drawbacks in treatment of infections with intracellular bacteria. Chlamydiaceae are Gram-negative bacteria implicated in acute and chronic diseases such as abortion in animals and trachoma in humans. Water-filtered infrared A (wIRA) is short waveleng...

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Autores principales: Marti, Hanna, Koschwanez, Maria, Pesch, Theresa, Blenn, Christian, Borel, Nicole
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4096919/
https://www.ncbi.nlm.nih.gov/pubmed/25019934
http://dx.doi.org/10.1371/journal.pone.0102239
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author Marti, Hanna
Koschwanez, Maria
Pesch, Theresa
Blenn, Christian
Borel, Nicole
author_facet Marti, Hanna
Koschwanez, Maria
Pesch, Theresa
Blenn, Christian
Borel, Nicole
author_sort Marti, Hanna
collection PubMed
description New therapeutic strategies are needed to overcome drawbacks in treatment of infections with intracellular bacteria. Chlamydiaceae are Gram-negative bacteria implicated in acute and chronic diseases such as abortion in animals and trachoma in humans. Water-filtered infrared A (wIRA) is short wavelength infrared radiation with a spectrum ranging from 780 to 1400 nm. In clinical settings, wIRA alone and in combination with visible light (VIS) has proven its efficacy in acute and chronic wound healing processes. This is the first study to demonstrate that wIRA irradiation combined with VIS (wIRA/VIS) diminishes recovery of infectious elementary bodies (EBs) of both intra- and extracellular Chlamydia (C.) in two different cell lines (Vero, HeLa) regardless of the chlamydial strain (C. pecorum, C. trachomatis serovar E) as shown by indirect immunofluorescence and titration by subpassage. Moreover, a single exposure to wIRA/VIS at 40 hours post infection (hpi) led to a significant reduction of C. pecorum inclusion frequency in Vero cells and C. trachomatis in HeLa cells, respectively. A triple dose of irradiation (24, 36, 40 hpi) during the course of C. trachomatis infection further reduced chlamydial inclusion frequency in HeLa cells without inducing the chlamydial persistence/stress response, as ascertained by electron microscopy. Irradiation of host cells (HeLa, Vero) neither affected cell viability nor induced any molecular markers of cytotoxicity as investigated by Alamar blue assay and Western blot analysis. Chlamydial infection, irradiation, and the combination of both showed a similar release pattern of a subset of pro-inflammatory cytokines (MIF/GIF, Serpin E1, RANTES, IL-6, IL-8) and chemokines (IL-16, IP-10, ENA-78, MIG, MIP-1α/β) from host cells. Initial investigation into the mechanism indicated possible thermal effects on Chlamydia due to irradiation. In summary, we demonstrate a non-chemical reduction of chlamydial infection using the combination of water-filtered infrared A and visible light.
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spelling pubmed-40969192014-07-17 Water-Filtered Infrared A Irradiation in Combination with Visible Light Inhibits Acute Chlamydial Infection Marti, Hanna Koschwanez, Maria Pesch, Theresa Blenn, Christian Borel, Nicole PLoS One Research Article New therapeutic strategies are needed to overcome drawbacks in treatment of infections with intracellular bacteria. Chlamydiaceae are Gram-negative bacteria implicated in acute and chronic diseases such as abortion in animals and trachoma in humans. Water-filtered infrared A (wIRA) is short wavelength infrared radiation with a spectrum ranging from 780 to 1400 nm. In clinical settings, wIRA alone and in combination with visible light (VIS) has proven its efficacy in acute and chronic wound healing processes. This is the first study to demonstrate that wIRA irradiation combined with VIS (wIRA/VIS) diminishes recovery of infectious elementary bodies (EBs) of both intra- and extracellular Chlamydia (C.) in two different cell lines (Vero, HeLa) regardless of the chlamydial strain (C. pecorum, C. trachomatis serovar E) as shown by indirect immunofluorescence and titration by subpassage. Moreover, a single exposure to wIRA/VIS at 40 hours post infection (hpi) led to a significant reduction of C. pecorum inclusion frequency in Vero cells and C. trachomatis in HeLa cells, respectively. A triple dose of irradiation (24, 36, 40 hpi) during the course of C. trachomatis infection further reduced chlamydial inclusion frequency in HeLa cells without inducing the chlamydial persistence/stress response, as ascertained by electron microscopy. Irradiation of host cells (HeLa, Vero) neither affected cell viability nor induced any molecular markers of cytotoxicity as investigated by Alamar blue assay and Western blot analysis. Chlamydial infection, irradiation, and the combination of both showed a similar release pattern of a subset of pro-inflammatory cytokines (MIF/GIF, Serpin E1, RANTES, IL-6, IL-8) and chemokines (IL-16, IP-10, ENA-78, MIG, MIP-1α/β) from host cells. Initial investigation into the mechanism indicated possible thermal effects on Chlamydia due to irradiation. In summary, we demonstrate a non-chemical reduction of chlamydial infection using the combination of water-filtered infrared A and visible light. Public Library of Science 2014-07-14 /pmc/articles/PMC4096919/ /pubmed/25019934 http://dx.doi.org/10.1371/journal.pone.0102239 Text en © 2014 Marti et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Marti, Hanna
Koschwanez, Maria
Pesch, Theresa
Blenn, Christian
Borel, Nicole
Water-Filtered Infrared A Irradiation in Combination with Visible Light Inhibits Acute Chlamydial Infection
title Water-Filtered Infrared A Irradiation in Combination with Visible Light Inhibits Acute Chlamydial Infection
title_full Water-Filtered Infrared A Irradiation in Combination with Visible Light Inhibits Acute Chlamydial Infection
title_fullStr Water-Filtered Infrared A Irradiation in Combination with Visible Light Inhibits Acute Chlamydial Infection
title_full_unstemmed Water-Filtered Infrared A Irradiation in Combination with Visible Light Inhibits Acute Chlamydial Infection
title_short Water-Filtered Infrared A Irradiation in Combination with Visible Light Inhibits Acute Chlamydial Infection
title_sort water-filtered infrared a irradiation in combination with visible light inhibits acute chlamydial infection
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4096919/
https://www.ncbi.nlm.nih.gov/pubmed/25019934
http://dx.doi.org/10.1371/journal.pone.0102239
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