A Comprehensive Analysis of Near‐Contact Photobiomodulation Therapy in the Host–Bacteria Interaction Model Using 3D‐Printed Modular LED Platform

One well‐studied bacterial factor recognized by the host immune system is lipopolysaccharides (LPS) that stimulate host cells, resulting in cell inflammation. Although photobiomodulation (PBM) therapy demonstrates its potency on anti‐inflammatory activity, the complete mechanism of action in the hos...

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Bibliographic Details
Published in:Advanced biosystems 2020-03, Vol.4 (3), p.e1900227-n/a
Main Authors: Kim, Hye‐Eun, Islam, Sayemul, Park, Moonchul, Kim, Albert, Hwang, Geelsu
Format: Article
Language:English
Subjects:
host–bacteria interaction
inflammation
light‐emitting‐diode
photobiomodulation
reactive oxygen species
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Summary:One well‐studied bacterial factor recognized by the host immune system is lipopolysaccharides (LPS) that stimulate host cells, resulting in cell inflammation. Although photobiomodulation (PBM) therapy demonstrates its potency on anti‐inflammatory activity, the complete mechanism of action in the host–bacteria interaction model is still elusive. In addition, many studies were performed regarding a distance between the light source and biological sample (non‐contact therapy) that may result in disparate reports on the efficacy of PBM therapy. Thus, it is critical to clearly understand the effect of this approach to maximize efficacy and minimize side effects. Here, a custom‐built light‐emitting diode (LED) platform that mimics near‐contact therapy is developed. The effect and mechanism of PBM therapy on epithelial cells in response to LPS is systematically investigated under various conditions (wavelength, irradiation‐time, pulse‐frequency). The data show that the irradiation of near‐infrared (NIR‐LED) significantly improves the viability of inflamed cells. It reveals that NIR‐LED inhibits the production of reactive oxygen species by regulating the Nox4‐NF‐κB pathway. Interestingly, however, high‐pulse frequency stimulus causes the collapse of the mitochondrial membrane potential (ΔΨm) of cells, resulting in cell death. These results suggest that the optimized “PBM condition” is critical to assist the healthy immune system of the host against bacterial invasion. A near‐contact photobiomodulation (PBM) therapy system using a 3D‐printed modular light‐emitting diode platform is developed. The efficacy and potential intracellular signaling pathways of A549 cells with bacterial lipopolysaccharides stimulus are investigated. The data reveal that PBM therapy using red or infrared irradiation is capable of inhibiting the production of reactive oxygen species by regulating the Nox4‐NF‐κB pathway.
ISSN:2366-7478
2366-7478
DOI:10.1002/adbi.201900227