Blockade of IL-17 signaling reverses alcohol-induced liver injury and excessive alcohol drinking in mice
Jun Xu, … , George F. Koob, Tatiana Kisseleva
Jun Xu, … , George F. Koob, Tatiana Kisseleva
Published February 13, 2020
Citation Information: JCI Insight. 2020;5(3):e131277. https://doi.org/10.1172/jci.insight.131277.
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Research Article Gastroenterology

Blockade of IL-17 signaling reverses alcohol-induced liver injury and excessive alcohol drinking in mice

Abstract

Chronic alcohol abuse has a detrimental effect on the brain and liver. There is no effective treatment for these patients, and the mechanism underlying alcohol addiction and consequent alcohol-induced damage of the liver/brain axis remains unresolved. We compared experimental models of alcoholic liver disease (ALD) and alcohol dependence in mice and demonstrated that genetic ablation of IL-17 receptor A (IL-17ra–/–) or pharmacological blockade of IL-17 signaling effectively suppressed the increased voluntary alcohol drinking in alcohol-dependent mice and blocked alcohol-induced hepatocellular and neurological damage. The level of circulating IL-17A positively correlated with the alcohol use in excessive drinkers and was further increased in patients with ALD as compared with healthy individuals. Our data suggest that IL-17A is a common mediator of excessive alcohol consumption and alcohol-induced liver/brain injury, and targeting IL-17A may provide a novel strategy for treatment of alcohol-induced pathology.

Authors

Jun Xu, Hsiao-Yen Ma, Xiao Liu, Sara Rosenthal, Jacopo Baglieri, Ryan McCubbin, Mengxi Sun, Yukinori Koyama, Cedric G. Geoffroy, Kaoru Saijo, Linshan Shang, Takahiro Nishio, Igor Maricic, Max Kreifeldt, Praveen Kusumanchi, Amanda Roberts, Binhai Zheng, Vipin Kumar, Karsten Zengler, Donald P. Pizzo, Mojgan Hosseini, Candice Contet, Christopher K. Glass, Suthat Liangpunsakul, Hidekazu Tsukamoto, Bin Gao, Michael Karin, David A. Brenner, George F. Koob, Tatiana Kisseleva

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Figure 9

Blockade of IL-17A partially restores Gene Ontology terms/pathways in the hippocampus of CIE mice.

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Blockade of IL-17A partially restores Gene Ontology terms/pathways in th...
(A) Selected pathways (Gene Ontology terms) were identified using gene set enrichment analysis (GSEA). Bar plots show the pathway normalized enrichment score, indicating the pathway was up- or downregulated in CIE versus Air mice (shown in blue) or in CIE IL-17A Ab versus CIE IgG mice (shown in yellow). (B) Heatmaps show individual genes’ alcohol dependence–associated pathways that were restored in CIE mice upon anti–IL-17A Ab treatment, log fold changes. Receptors: Drd5 (dopamine receptor), Grin1 (glutamate receptor), Gabra5 (GABA receptor), Adrb2 (adrenergic receptor), and Htr2a and Htr3a (serotonin receptors). Hippocampus-associated learning (Neto1, corticotropin-releasing factor [CRF; Crh], Crhbp); calcium signaling (Calm 1, 2, and 3; Camk2n1 and -2; Atp2b1; Nrgn); focal adhesion (Jun, Reln, Ntrk1, Nfkb, Nfam1, Cdk5, Gsk3a and -b, Kif5b, Wnt3); cell cycle (Ccne1, Ccnd1, Kras, Rin1); apoptosis (Bax); mitochondrial function (Bdh1); regulators of transcription (Mecp2, Mbd1, Hdac2, Eftud2); metabolic (Smpd1, Hnmt, Adcy3, Ctns, Cln8). Pathway enrichment P < 0.05 (see Supplemental Figure 13).