Adipocyte-specific deletion of sine oculis homeobox homolog 1 inhibits lipolysis and reduces skin fibrosis
Nancy Wareing, Tingting W. Mills, Scott Collum, Minghua Wu, Lucy Revercomb, René A. Girard, Hui Liu, Alexes Daquinag, Mikhail Kolonin, Marka Lyons, Brian Skaug, Weizhen Bi, Meer A. Ali, Haniyeh Koochak, Anthony R. Flores, Yuntao Yang, W. Jim Zheng, William R. Swindell, Shervin Assassi, Harry Karmouty-Quintana
Nancy Wareing, Tingting W. Mills, Scott Collum, Minghua Wu, Lucy Revercomb, René A. Girard, Hui Liu, Alexes Daquinag, Mikhail Kolonin, Marka Lyons, Brian Skaug, Weizhen Bi, Meer A. Ali, Haniyeh Koochak, Anthony R. Flores, Yuntao Yang, W. Jim Zheng, William R. Swindell, Shervin Assassi, Harry Karmouty-Quintana
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Research Article Cell biology Dermatology

Adipocyte-specific deletion of sine oculis homeobox homolog 1 inhibits lipolysis and reduces skin fibrosis

Abstract

Dermal fibrosis is a cardinal feature of systemic sclerosis (SSc) for which there are limited effective disease-modifying therapies. SSc is characterized by dermal fibrosis accompanied by loss of dermal white adipose tissue (DWAT), yet the mechanisms linking adipocyte depletion to fibroblast activation remain unclear. Here we identify the transcription factor SIX1 as a central regulator coupling adipogenic repression with profibrotic signaling. SIX1 expression was increased in skin biopsies from 2 independent SSc cohorts and localized to fibroblast and perivascular stromal cells. In mice, ubiquitous or adipocyte-specific deletion of Six1 preserved DWAT, reduced collagen accumulation, and selectively decreased profibrotic mediators. In cultured fibroblasts, CRISPR/Cas9-mediated Six1 loss enhanced adipogenic markers while reducing profibrotic mediators and directly suppressed PAI-1 (SERPINE1) promoter activity. Together, these data position SIX1 as a transcriptional switch that promotes adipocyte reprogramming and fibrotic progression, and they highlight SIX1 inhibition as a potential therapeutic strategy to preserve adipocyte identity and limit dermal fibrosis.

Authors

Nancy Wareing, Tingting W. Mills, Scott Collum, Minghua Wu, Lucy Revercomb, René A. Girard, Hui Liu, Alexes Daquinag, Mikhail Kolonin, Marka Lyons, Brian Skaug, Weizhen Bi, Meer A. Ali, Haniyeh Koochak, Anthony R. Flores, Yuntao Yang, W. Jim Zheng, William R. Swindell, Shervin Assassi, Harry Karmouty-Quintana

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Figure 3

Dermal white adipose loss precedes fibrosis in the murine model of bleomycin induced skin fibrosis.

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Dermal white adipose loss precedes fibrosis in the murine model of bleom...
(A) Schematic representation of s.c. bleo model of skin fibrosis in mice (created with BioRender). (B) Representative images of Masson’s trichrome staining of dorsal mouse skin after 7, 14, 21, and 28 days of s.c. vehicle or bleo treatment. White arrows indicate dermal thickness. Scale bar: 200 μm. (C and D) Dermal thickness and area of DWAT at 7, 14, 21, and 28 days reported in a dot plot, as mean ± SD of bleo-injected mice normalized to the average of all vehicle-injected mice at that time point. n = 4–5 for each time point. Transcript expression levels for sine oculis homeobox homolog 1 (Six1, E),collagen 1a1 (Col1a1, F), collagen 1a2 (Col1a2, G), collagen 6a1 (Col6a1, H), TGF-β1 (Tgfb1, I), serpin family E member 1 (Serpine1, J), and peroxisome proliferator activated receptor γ (Pparg, K) in 7-day skin samples by qPCR. Expression was normalized to 18s rRNA. DWAT, dermal white adipose tissue. *P ≤ 0.05, **P ≤ 0.01, ***P ≤ 0.001, and ****P ≤ 0.0001 refer to a simple linear regression for C and D and an unpaired t test for EK. Each individual plot represents a biological n. n = 3–7.