HDL activation of endothelial sphingosine-1-phosphate receptor-1 (S1P1) promotes regeneration and suppresses fibrosis in the liver
Bi-Sen Ding, Catherine H. Liu, Yue Sun, Yutian Chen, Steven L. Swendeman, Bongnam Jung, Deebly Chavez, Zhongwei Cao, Christina Christoffersen, Lars Bo Nielsen, Susan R. Schwab, Shahin Rafii, Timothy Hla
Bi-Sen Ding, Catherine H. Liu, Yue Sun, Yutian Chen, Steven L. Swendeman, Bongnam Jung, Deebly Chavez, Zhongwei Cao, Christina Christoffersen, Lars Bo Nielsen, Susan R. Schwab, Shahin Rafii, Timothy Hla
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Research Article Therapeutics Vascular biology

HDL activation of endothelial sphingosine-1-phosphate receptor-1 (S1P1) promotes regeneration and suppresses fibrosis in the liver

Abstract

Regeneration of hepatic sinusoidal vasculature is essential for non-fibrotic liver regrowth and restoration of its metabolic capacity. However, little is known about how this specialized vascular niche is regenerated. Here we show that activation of endothelial sphingosine-1-phosphate receptor-1 (S1P1) by its natural ligand bound to HDL (HDL-S1P) induces liver regeneration and curtails fibrosis. In mice lacking HDL-S1P, liver regeneration after partial hepatectomy was impeded and associated with aberrant vascular remodeling, thrombosis and peri-sinusoidal fibrosis. Notably, this “maladaptive repair” phenotype was recapitulated in mice that lack S1P1 in the endothelium. Reciprocally, enhanced plasma levels of HDL-S1P or administration of SEW2871, a pharmacological agonist specific for S1P1 enhanced regeneration of metabolically functional vasculature and alleviated fibrosis in mouse chronic injury and cholestasis models. This study shows that natural and pharmacological ligands modulate endothelial S1P1 to stimulate liver regeneration and inhibit fibrosis, suggesting that activation of this pathway may be a novel therapeutic strategy for liver fibrosis.

Authors

Bi-Sen Ding, Catherine H. Liu, Yue Sun, Yutian Chen, Steven L. Swendeman, Bongnam Jung, Deebly Chavez, Zhongwei Cao, Christina Christoffersen, Lars Bo Nielsen, Susan R. Schwab, Shahin Rafii, Timothy Hla

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Figure 5

S1P1 signaling in mouse LSEC is involved in vascular regeneration after PH.

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S1P1 signaling in mouse LSEC is involved in vascular regeneration after ...
(A) Strategy to generate S1P1-GFP signaling reporter mice. First, because activation of S1P1 recruits arrestins, S1pr1 gene in mouse is linked to a tetracycline-controlled transactivator (tTA) at its C terminus with a Tobacco Etch Virus (TEV) protease cleavage site (TCS), generating a S1pr1-TCS-tTA knockin mouse. Second, a β-arrestin-TEV protease fusion protein was also introduced into S1pr1-TCS-tTA mouse. Upon S1P1 activation, this fusion protease is recruited to release tTA from the C terminus of S1P1. Third, in histone H2B-GFP reporter mouse, nuclear entry of released tTA triggers expression of H2B-GFP driven by tetracycline-response element (TRE). (B) Schema depicting strategy to test S1P1 activation in the liver following PH. Mouse expressing both S1p1r-TCS-tTA and β-arrestin-TEV protease were mated with H2B-GFP mice, resulting in S1P1-GFP reporter mouse. Then S1P1-GFP reporter mouse underwent PH and sham procedures. (C) After PH, S1P1 signaling (GFP) was mainly localized in VEGFR3+ LSECs, suggesting the role of LSEC S1P1 pathway in modulating liver regeneration. Scale bar = 50 μm.