Low-Dose Blue Light (420 nm) Reduces Metabolic Activity and Inhibits Proliferation of Human Dermal Fibroblasts

Anne K E Brüning; Jennifer L Schiefer; Paul C Fuchs; Patrick Petzsch; Karl Köhrer; Christoph V Suschek; Ewa Klara Stuermer; Christian Opländer

doi:10.3390/life13020331

Low-Dose Blue Light (420 nm) Reduces Metabolic Activity and Inhibits Proliferation of Human Dermal Fibroblasts

Standard

Low-Dose Blue Light (420 nm) Reduces Metabolic Activity and Inhibits Proliferation of Human Dermal Fibroblasts. / Brüning, Anne K E; Schiefer, Jennifer L; Fuchs, Paul C; Petzsch, Patrick; Köhrer, Karl; Suschek, Christoph V; Stuermer, Ewa Klara; Opländer, Christian.

in: LIFE-BASEL, Jahrgang 13, Nr. 2, 331, 25.01.2023.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Brüning, AKE, Schiefer, JL, Fuchs, PC, Petzsch, P, Köhrer, K, Suschek, CV, Stuermer, EK & Opländer, C 2023, 'Low-Dose Blue Light (420 nm) Reduces Metabolic Activity and Inhibits Proliferation of Human Dermal Fibroblasts', LIFE-BASEL, Jg. 13, Nr. 2, 331. https://doi.org/10.3390/life13020331

APA

Brüning, A. K. E., Schiefer, J. L., Fuchs, P. C., Petzsch, P., Köhrer, K., Suschek, C. V., Stuermer, E. K., & Opländer, C. (2023). Low-Dose Blue Light (420 nm) Reduces Metabolic Activity and Inhibits Proliferation of Human Dermal Fibroblasts. LIFE-BASEL, 13(2), [331]. https://doi.org/10.3390/life13020331

Vancouver

Brüning AKE, Schiefer JL, Fuchs PC, Petzsch P, Köhrer K, Suschek CV et al. Low-Dose Blue Light (420 nm) Reduces Metabolic Activity and Inhibits Proliferation of Human Dermal Fibroblasts. LIFE-BASEL. 2023 Jan 25;13(2). 331. https://doi.org/10.3390/life13020331

Bibtex

@article{aa9b469e4988491d8a1ab3694d4eecb8,

title = "Low-Dose Blue Light (420 nm) Reduces Metabolic Activity and Inhibits Proliferation of Human Dermal Fibroblasts",

abstract = "Hypertrophic scarring in burn wounds is caused by overactive fibroblasts and myofibroblasts. Blue light reveals wavelength- and dose-dependent antibacterial and antiproliferative effects and may serve as a therapeutic option against wound infection and fibrotic conditions. Therefore, we evaluated in this study the effects of single and multiple irradiations with blue light at 420 nm (BL420) on the intracellular ATP concentration, and on the viability and proliferation of the human skin fibroblast (HDFs). In addition, possible BL420-induced effects on the catalase expression and differentiation were assessed by immunocytochemical staining and western blot analyses. Furthermore, we used RNA-seq analyses to identify BL420-affected genes. We found that BL420 induced toxicity in HDFs (up to 83%; 180 J/cm2). A low dose of 20 J/cm2 reduced the ATP concentration by ~50%. Multiple irradiations (4 × 20 J/cm2) inhibited proliferation without visible toxicity and reduced catalase protein expression by ~37% without affecting differentiation. The expression of about 300 genes was significantly altered. Many downregulated genes have functions in cell division/mitosis. BL420 can strongly influence the fibroblast physiology and has potential in wound therapy. However, it is important to consider the possible toxic and antiproliferative effects, which could potentially lead to impaired wound healing and reduced scar breaking strength.",

author = "Br{\"u}ning, {Anne K E} and Schiefer, {Jennifer L} and Fuchs, {Paul C} and Patrick Petzsch and Karl K{\"o}hrer and Suschek, {Christoph V} and Stuermer, {Ewa Klara} and Christian Opl{\"a}nder",

year = "2023",

month = jan,

day = "25",

doi = "10.3390/life13020331",

language = "English",

volume = "13",

journal = "LIFE-BASEL",

issn = "2075-1729",

publisher = "MDPI Multidisciplinary Digital Publishing Institute",

number = "2",

}

RIS

TY - JOUR

T1 - Low-Dose Blue Light (420 nm) Reduces Metabolic Activity and Inhibits Proliferation of Human Dermal Fibroblasts

AU - Brüning, Anne K E

AU - Schiefer, Jennifer L

AU - Fuchs, Paul C

AU - Petzsch, Patrick

AU - Köhrer, Karl

AU - Suschek, Christoph V

AU - Stuermer, Ewa Klara

AU - Opländer, Christian

PY - 2023/1/25

Y1 - 2023/1/25

N2 - Hypertrophic scarring in burn wounds is caused by overactive fibroblasts and myofibroblasts. Blue light reveals wavelength- and dose-dependent antibacterial and antiproliferative effects and may serve as a therapeutic option against wound infection and fibrotic conditions. Therefore, we evaluated in this study the effects of single and multiple irradiations with blue light at 420 nm (BL420) on the intracellular ATP concentration, and on the viability and proliferation of the human skin fibroblast (HDFs). In addition, possible BL420-induced effects on the catalase expression and differentiation were assessed by immunocytochemical staining and western blot analyses. Furthermore, we used RNA-seq analyses to identify BL420-affected genes. We found that BL420 induced toxicity in HDFs (up to 83%; 180 J/cm2). A low dose of 20 J/cm2 reduced the ATP concentration by ~50%. Multiple irradiations (4 × 20 J/cm2) inhibited proliferation without visible toxicity and reduced catalase protein expression by ~37% without affecting differentiation. The expression of about 300 genes was significantly altered. Many downregulated genes have functions in cell division/mitosis. BL420 can strongly influence the fibroblast physiology and has potential in wound therapy. However, it is important to consider the possible toxic and antiproliferative effects, which could potentially lead to impaired wound healing and reduced scar breaking strength.

AB - Hypertrophic scarring in burn wounds is caused by overactive fibroblasts and myofibroblasts. Blue light reveals wavelength- and dose-dependent antibacterial and antiproliferative effects and may serve as a therapeutic option against wound infection and fibrotic conditions. Therefore, we evaluated in this study the effects of single and multiple irradiations with blue light at 420 nm (BL420) on the intracellular ATP concentration, and on the viability and proliferation of the human skin fibroblast (HDFs). In addition, possible BL420-induced effects on the catalase expression and differentiation were assessed by immunocytochemical staining and western blot analyses. Furthermore, we used RNA-seq analyses to identify BL420-affected genes. We found that BL420 induced toxicity in HDFs (up to 83%; 180 J/cm2). A low dose of 20 J/cm2 reduced the ATP concentration by ~50%. Multiple irradiations (4 × 20 J/cm2) inhibited proliferation without visible toxicity and reduced catalase protein expression by ~37% without affecting differentiation. The expression of about 300 genes was significantly altered. Many downregulated genes have functions in cell division/mitosis. BL420 can strongly influence the fibroblast physiology and has potential in wound therapy. However, it is important to consider the possible toxic and antiproliferative effects, which could potentially lead to impaired wound healing and reduced scar breaking strength.

U2 - 10.3390/life13020331

DO - 10.3390/life13020331

M3 - SCORING: Journal article

C2 - 36836688

VL - 13

JO - LIFE-BASEL

JF - LIFE-BASEL

SN - 2075-1729

IS - 2

M1 - 331

ER -