Cytoplasmic retention of the DNA/RNA-binding protein FUS ameliorates organ fibrosis in mice
Manuel Chiusa, … , Roy Zent, Ambra Pozzi
Manuel Chiusa, … , Roy Zent, Ambra Pozzi
Published March 15, 2024
Citation Information: J Clin Invest. 2024;134(6):e175158. https://doi.org/10.1172/JCI175158.
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Research Article Hepatology Nephrology

Cytoplasmic retention of the DNA/RNA-binding protein FUS ameliorates organ fibrosis in mice

Abstract

Uncontrolled accumulation of extracellular matrix leads to tissue fibrosis and loss of organ function. We previously demonstrated in vitro that the DNA/RNA-binding protein fused in sarcoma (FUS) promotes fibrotic responses by translocating to the nucleus, where it initiates collagen gene transcription. However, it is still not known whether FUS is profibrotic in vivo and whether preventing its nuclear translocation might inhibit development of fibrosis following injury. We now demonstrate that levels of nuclear FUS are significantly increased in mouse models of kidney and liver fibrosis. To evaluate the direct role of FUS nuclear translocation in fibrosis, we used mice that carry a mutation in the FUS nuclear localization sequence (FUSR521G) and the cell-penetrating peptide CP-FUS-NLS that we previously showed inhibits FUS nuclear translocation in vitro. We provide evidence that FUSR521G mice or CP-FUS-NLS–treated mice showed reduced nuclear FUS and fibrosis following injury. Finally, differential gene expression analysis and immunohistochemistry of tissues from individuals with focal segmental glomerulosclerosis or nonalcoholic steatohepatitis revealed significant upregulation of FUS and/or collagen genes and FUS protein nuclear localization in diseased organs. These results demonstrate that injury-induced nuclear translocation of FUS contributes to fibrosis and highlight CP-FUS-NLS as a promising therapeutic option for organ fibrosis.

Authors

Manuel Chiusa, Youngmin A. Lee, Ming-Zhi Zhang, Raymond C. Harris, Taylor Sherrill, Volkhard Lindner, Craig R. Brooks, Gang Yu, Agnes B. Fogo, Charles R. Flynn, Jozef Zienkiewicz, Jacek Hawiger, Roy Zent, Ambra Pozzi

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Figure 5

Reduced ADR-induced FUS nuclear translocation in FUSR521G mice.

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Reduced ADR-induced FUS nuclear translocation in FUSR521G mice. (A) Nucl...
(A) Nuclear fractions (50 μg/lane) of kidney cortices from uninjured mice and mice treated with ADR for 2 weeks were analyzed by Western blot for levels of FUS. Histone H3 and GAPDH were used to verify the purity of nuclear and nonnuclear fractions, respectively. (B) FUS bands were quantified by densitometry analysis, and values were expressed as FUS/histone H3 ratio. Values are the mean ± SD, and symbols represent individual kidneys (n = 3 uninjured, n = 4 Cre, n = 4 FUSR521G). (C) Representative confocal images of kidneys from uninjured mice or mice treated with ADR for 2 weeks stained with anti-FUS antibody (red) or DAPI (blue). Scale bars: 20 μm. (D) The number of FUS-positive glomerular cells was counted and expressed as percentage of FUS-positive cells per glomerulus. Values are the mean ± SD, and symbols represent individual kidneys (n = 4 uninjured, n = 10 Cre, n = 7 FUSR521G, with an average of at least 10 glomeruli per kidney). (E) Representative images of kidney sections from uninjured mice or mice treated with ADR for 2 weeks stained with anti–collagen IV antibody. Scale bar: 20 μm. (F) The intensity of glomerular collagen IV was evaluated using ImageJ as described in Methods. Values are the mean ± SD, and symbols represent individual kidneys (n = 4 uninjured, n = 8 Cre, n = 7 FUSR521G, with an average of at least 10 glomeruli per kidney). (G and H) mRNA expression of Col1A2 (n = 6 uninjured, n = 16 Cre, n = 8 FUSR521G) and Col4A2 (n = 7 uninjured, n = 8 Cre, n = 7 FUSR521G) chains in kidney cortices of the mice indicated was analyzed by reverse transcription real-time quantitative PCR. Values are the mean ± SD, and symbols represent individual kidneys. Statistical analysis: 1-way ANOVA followed by Dunnett’s multiple-comparison test (B, D, and FH).