Cannabinoid-2 receptor activation ameliorates hepatorenal syndrome.

Free Radical Biology and Medicine“Hepatorenal syndrome (HRS) is a life-threatening complication of end-stage liver disease characterized by the rapid decline of kidney function. Herein, we explored the therapeutic potential of targeting the cannabinoid 2 receptor (CB2-R) utilizing a commonly used mouse model of liver fibrosis and hepatorenal syndrome (HRS), induced by bile duct ligation (BDL).

KEY RESULTS:

We found that liver injury triggered marked inflammation and oxidative stress also in the kidneys of BDL-operated mice. We detected pronounced histopathological alterations with tubular injury paralleled with increased inflammation, oxidative/nitrative stress and fibrotic remodeling both in hepatic and renal tissues as well as endothelial activation and markedly impaired renal microcirculation. This was accompanied by increased CB2-R expression in both liver and the kidney tissues of diseased animals. A selective CB2-R agonist, HU-910, markedly decreased numerous markers of inflammation, oxidative stress and fibrosis both in the liver and in the kidneys. HU-910 also attenuated markers of kidney injury and improved the impaired renal microcirculation in BDL-operated mice.

CONCLUSIONS:

Our results suggest that oxidative stress, inflammation and microvascular dysfunction are key events in the pathogenesis of BDL-associated renal failure. Furthermore, we demonstrate that targeting the CB2-R by selective agonists may represent a promising new avenue to treat HRS by attenuating tissue and vascular inflammation, oxidative stress, fibrosis and consequent microcirculatory dysfunction in the kidneys.”

https://www.ncbi.nlm.nih.gov/pubmed/31770583

“Bile duct ligation (BDL) causes hepatorenal syndrome (HRS). Oxidative damage/inflammation drives liver and kidney injury following BDL. Cannabinoid-2 receptor (CB2-R) activation attenuates hepatic damage in BDL. CB2-R activation mitigates the renal inflammation and oxidative damage in BDL. CB2-R activation attenuates renal microcirculatory dysfunction in BDL.”

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