Deacetylation via SIRT2 prevents keratin-mutation-associated injury and keratin aggregation
Jingyuan Sun, Pei Li, Honglian Gui, Laure Rittié, David B. Lombard, Katrin Rietscher, Thomas M. Magin, Qing Xie, Li Liu, M. Bishr Omary
Jingyuan Sun, Pei Li, Honglian Gui, Laure Rittié, David B. Lombard, Katrin Rietscher, Thomas M. Magin, Qing Xie, Li Liu, M. Bishr Omary
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Research Article Dermatology Hepatology

Deacetylation via SIRT2 prevents keratin-mutation-associated injury and keratin aggregation

Abstract

Keratin (K) and other intermediate filament (IF) protein mutations at conserved arginines disrupt keratin filaments into aggregates and cause human epidermolysis bullosa simplex (EBS; K14-R125C) or predispose to mouse liver injury (K18-R90C). The challenge for more than 70 IF-associated diseases is the lack of clinically utilized IF-targeted therapies. We used high-throughput drug screening to identify compounds that normalized mutation-triggered keratin filament disruption. Parthenolide, a plant sesquiterpene lactone, dramatically reversed keratin filament disruption and protected cells and mice expressing K18-R90C from apoptosis. K18-R90C became hyperacetylated compared with K18-WT and treatment with parthenolide normalized K18 acetylation. Parthenolide upregulated the NAD-dependent SIRT2, and increased SIRT2-keratin association. SIRT2 knockdown or pharmacologic inhibition blocked the parthenolide effect, while site-specific Lys-to-Arg mutation of keratin acetylation sites normalized K18-R90C filaments. Treatment of K18-R90C–expressing cells and mice with nicotinamide mononucleotide had a parthenolide-like protective effect. In 2 human K18 variants that associate with human fatal drug-induced liver injury, parthenolide protected K18-D89H– but not K8-K393R–induced filament disruption and cell death. Importantly, parthenolide normalized K14-R125C–mediated filament disruption in keratinocytes and inhibited dispase-triggered keratinocyte sheet fragmentation and Fas-mediated apoptosis. Therefore, keratin acetylation may provide a novel therapeutic target for some keratin-associated diseases.

Authors

Jingyuan Sun, Pei Li, Honglian Gui, Laure Rittié, David B. Lombard, Katrin Rietscher, Thomas M. Magin, Qing Xie, Li Liu, M. Bishr Omary

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Figure 4

Keratin deacetylation by nicotinamide mononucleotide (NMN) normalizes K18-R90C–induced keratin filament disruption and protects against Fas-induced apoptosis in cells and mouse liver.

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Keratin deacetylation by nicotinamide mononucleotide (NMN) normalizes K1...
(A) A549 cells were transduced with GFP-K18-R90C followed by treatment with NMN (2 mM), PN (5 μM) or NMN + PN. Cells were imaged after counterstaining the nuclei (blue). Scale bar: 50 μm. Quantification of the percentage cells with dots was done using pooled counts from 3 experiments. Data are presented as mean ± SD. *P = 0.03, **P < 0.01, ***P < 0.001 using 1-way ANOVA followed by Tukey’s post hoc test. (B) Lysates from cells similar to those used in panel A were used for immunoprecipitation with an anti-AcK antibody followed by immunoblotting with an anti-K18 antibody (the input lysate was similarly blotted). (C) Cells as in panel A were treated with IFN-γ and Fas-L to induce apoptosis. Cell lysates were analyzed by blotting using antibodies against the indicated antigens. (D) Mice that overexpress K18-R90C were treated daily with PBS or NMN for 4 days. Liver sections were then double stained with anti-K18 antibody (red) and DAPI (blue). P = 0.01 when comparing the percentage cells with dots in hepatocytes from PBS vs. NMN treatment groups. (E) Livers from 2 pairs of K18-R90C mouse siblings were treated with NMN or PBS (4 days) followed by solubilization, AcK immunoprecipitation, and then blotting (of precipitates and input) with an anti-K18 antibody. (F) Mice were challenged with Fas-L to induce liver injury, followed by measurement of serum alanine transaminase (ALT). *P < 0.03 using an unpaired, 2-tailed Student’s t test. (G) Livers from mice used in panel E were homogenized followed by blotting with antibodies against the indicated antigens. HSP70 is included as a loading control. Each lane represents livers from separate animals.