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. 2024 Nov;22(11):3191-3198.
doi: 10.1016/j.jtha.2024.07.017. Epub 2024 Aug 8.

Hepatocyte-independent PAR1-biased signaling controls liver pathology in experimental obesity

Holly Cline  1 Zimu Wei  1 Dafna J Groeneveld  1 Jeremy M L Hix  2 Xiao Xu  3 Matthew J Flick  4 Joseph S Palumbo  5 Lauren G Poole  6 Chris Dockendorff  7 John H Griffin  3 James P Luyendyk  8
Affiliations

Hepatocyte-independent PAR1-biased signaling controls liver pathology in experimental obesity

Holly Cline et al. J Thromb Haemost. 2024 Nov.

Abstract

Background: Protease-activated receptor-1 (PAR1) has emerged as an important link between coagulation and the complications of obesity including metabolic dysfunction-associated steatotic liver disease (MASLD). PAR1 is expressed by various cells and cleaved by different proteases to generate unique tethered agonists that activate distinct signaling pathways. Mice expressing PAR1 with an R41Q mutation have disabled canonical thrombin-mediated signaling, whereas R46Q mice express PAR1 resistant to noncanonical signaling by activated protein C.

Methods: Mice with whole body and hepatocyte-selective PAR1 deficiency as well as PAR1 R41Q and R46Q mice were fed a high-fat diet (HFD) to induce MASLD.

Results: HFD-fed R41Q mice displayed reduced hepatic steatosis and liver/body weight ratio. In contrast, HFD-fed R46Q mice displayed increased relative liver weight and hepatic steatosis alongside increased serum alanine aminotransferase activity. Surprisingly, despite the distinct impact of PAR1 mutations on steatosis, selective deletion of PAR1 in hepatocytes had no impact. To evaluate a viable PAR1-targeted approach, mice with HFD-induced obesity were treated with the allosteric PAR1 modulator NRD-21, which inhibits canonical PAR1 inflammatory signaling but promotes PAR1 protective, noncanonical anti-inflammatory signaling. NRD-21 treatment reduced plasma tumor necrosis factor-alpha, serum alanine aminotransferase activity, hepatic steatosis, and insulin resistance (Homeostatic Model Assessment for Insulin Resistance) but increased plasma active glucagon-like peptide-1.

Conclusion: The results suggest that nonhepatocellular canonical PAR1 cleavage drives MASLD in obese mice and provide translational proof-of-concept that selective pharmacologic modulation of PAR1 yields multiple metabolic benefits in experimental obesity.

Keywords: PAR1; liver diseases; metabolic syndrome; receptor; thrombin.

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Conflict of interest statement

Declaration of competing interests C.D. is Chief Strategy Officer and Chief Executive Officer at Function Therapeutics, which provided NRD-21 for these studies. Function Therapeutics did not provide financial support. Beyond research support noted in acknowledgments, no other authors have relevant conflicts of interests to disclose.

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