UVB-mediated DNA damage induces matrix metalloproteinases to promote photoaging in an AhR- and SP1-dependent manner
Daniel J. Kim, … , Anna L. Chien, Sewon Kang
Daniel J. Kim, … , Anna L. Chien, Sewon Kang
Published March 22, 2022
Citation Information: JCI Insight. 2022;7(9):e156344. https://doi.org/10.1172/jci.insight.156344.
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Research Article Aging Dermatology

UVB-mediated DNA damage induces matrix metalloproteinases to promote photoaging in an AhR- and SP1-dependent manner

Abstract

It is currently thought that UVB radiation drives photoaging of the skin primarily by generating ROS. In this model, ROS purportedly activates activator protein-1 to upregulate MMPs 1, 3, and 9, which then degrade collagen and other extracellular matrix components to produce wrinkles. However, these MMPs are expressed at relatively low levels and correlate poorly with wrinkles, suggesting that another mechanism distinct from ROS and MMP1/3/9 may be more directly associated with photoaging. Here we show that MMP2, which degrades type IV collagen, is abundantly expressed in human skin, increases with age in sun-exposed skin, and correlates robustly with aryl hydrocarbon receptor (AhR), a transcription factor directly activated by UV-generated photometabolites. Through mechanistic studies with HaCaT human immortalized keratinocytes, we found that AhR, specificity protein 1 (SP1), and other pathways associated with DNA damage are required for the induction of both MMP2 and MMP11 (another MMP implicated in photoaging), but not MMP1/3. Last, we found that topical treatment with AhR antagonists vitamin B12 and folic acid ameliorated UVB-induced wrinkle formation in mice while dampening MMP2 expression in the skin. These results directly implicate DNA damage in photoaging and reveal AhR as a potential target for preventing wrinkles.

Authors

Daniel J. Kim, Akiko Iwasaki, Anna L. Chien, Sewon Kang

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Figure 4

DNA damage, ATM, p38, and JNK are implicated in the induction of Mmp2 mRNA.

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DNA damage, ATM, p38, and JNK are implicated in the induction of Mmp2 mR...
(A) HaCaT keratinocytes were treated with DMSO or 5 μM camptothecin (CPT) for 24 hours. Mmp2 mRNA was measured by RT-qPCR and normalized to Hprt1 and DMSO-treated samples (n = 3). (B) HaCaT keratinocytes were treated with PBS or 1 mM H2O2 for 24 hours. Mmp2 mRNA was measured by RT-qPCR and normalized to Hprt1 and PBS-treated samples (n = 3). (C) HaCaT keratinocytes were irradiated with 200 mJ/cm2 UVB and subsequently treated with DMSO, 10 μM CH-223191, 50 ng/mL vitamin B12, or 20 ng/mL FA for 24 hours. Protein levels of γH2AX and β-Actin were measured by Western blot. (D and F) HaCaT keratinocytes were transfected with siNC or siATM and irradiated with UVB. Cells were lysed 24 hours later for analysis. (D) Mmp2 mRNA was measured by RT-qPCR and normalized to Hprt1 and siNC-transfected samples (n = 3). (F) Protein levels of MMP2, phosphorylated SP1 (Thr-278 and Thr-739 residues), and β-Actin were measured by Western blot. (E) HaCaT keratinocytes were irradiated with UVB and treated with DMSO, 50 μM PD98059 (ERK inhibitor), 10 μM SB203580 (p38 inhibitor), or 25 μM SP600125 (JNK inhibitor) for 24 hours. Mmp2 mRNA was measured by RT-qPCR and normalized to Hprt1 and DMSO-treated samples (n = 3). Data are means ± SEM. P values were calculated by unpaired 2-tailed Student’s t test and 1-way ANOVA. *P < 0.05, ***P < 0.001.