A High-Calorie Diet Aggravates Mitochondrial Dysfunction and Triggers Severe Liver Damage in Wilson Disease Rats

doi:10.1016/j.jcmgh.2018.12.005

Cellular and Molecular Gastroenterology and Hepatology

Volume 7, Issue 3, 2019, Pages 571-596

https://doi.org/10.1016/j.jcmgh.2018.12.005 Get rights and content

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Background & Aims

In Wilson disease, ATP7B mutations impair copper excretion into bile. Hepatic copper accumulation may induce mild to moderate chronic liver damage or even acute liver failure. Etiologic factors for this heterogeneous phenotype remain enigmatic. Liver steatosis is a frequent finding in Wilson disease patients, suggesting that impaired copper homeostasis is linked with liver steatosis. Hepatic mitochondrial function is affected negatively both by copper overload and steatosis. Therefore, we addressed the question of whether a steatosis-promoting high-calorie diet aggravates liver damage in Wilson disease via amplified mitochondrial damage.

Methods

Control Atp7b^+/- and Wilson disease Atp7b^-/- rats were fed either a high-calorie diet (HCD) or a normal diet. Copper chelation using the high-affinity peptide methanobactin was used in HCD-fed Atp7b^-/- rats to test for therapeutic reversal of mitochondrial copper damage.

Results

In comparison with a normal diet, HCD feeding of Atp7b^-/- rats resulted in a markedly earlier onset of clinically apparent hepatic injury. Strongly increased mitochondrial copper accumulation was observed in HCD-fed Atp7b^-/- rats, correlating with severe liver injury. Mitochondria presented with massive structural damage, increased H₂O₂ emergence, and dysfunctional adenosine triphosphate production. Hepatocellular injury presumably was augmented as a result of oxidative stress. Reduction of mitochondrial copper by methanobactin significantly reduced mitochondrial impairment and ameliorated liver damage.

Conclusions

A high-calorie diet severely aggravates hepatic mitochondrial and hepatocellular damage in Wilson disease rats, causing an earlier onset of the disease and enhanced disease progression.

Graphical abstract

Keywords

Copper-Storage Disease

Steatosis

Steatohepatitis

Mitochondria

Methanobactin

Abbreviations used in this paper

Acetyl-CoA

acetyl coenzyme A

ADP

adenosine diphosphate

AST

aspartate aminotransferase

ATP

adenosine triphosphate

BSA

bovine serum albumin

ceruloplasmin

citrate synthase

EGTA

ethylene glycol-bis(β-aminoethyl ether)-N,N,N′,N′-tetraacetic acid

F₁F_O

adenosine triphosphate synthase

HAI

Histologic Activity Index

HCD

high-calorie diet

ICP

Inductively Coupled Plasma

methanobactin

mass spectrometry

NADH

reduced nicotinamide adenine dinucleotide

NAFLD

nonalcoholic fatty liver disease

NAS

nonalcoholic fatty liver disease activity score

normal diet

ROS

reactive oxygen species

TRIS

tris-(hydroxymethyl)aminomethane

Wilson disease

Cited by (0)

: Author contributions Claudia Einer and Christin Leitzinger performed experiments, analyzed data, and wrote the paper; Josef Lichtmannegger, Tamara Rieder, Sabine Borchard, Ralf Wimmer, and Andreas E. Kremer performed experiments; Frauke Neff, Bastian Popper, Carola Eberhagen, Elena V. Polishchuk, and Roman S. Polishchuk performed histochemical and transmission electron microscope analyses; Christine von Toerne and Stefanie M. Hauck performed the proteome analysis; Uwe Karst and Jennifer-Christin Müller performed laser ablation inductively coupled plasma-mass spectrometry; Alan A. DiSpirito, Bipin S. Baral, and Jeremy Semrau produced the methanobactin samples; Gerald Denk reviewed the data and the manuscript; Karl Heinz Weiss analyzed the data and designed experiments; Simon Hohenester analyzed the data, designed experiments, guided data compilation, and wrote the paper; and Hans Zischka designed experiments, analyzed the data, wrote the paper, and directed this study.

: Conflicts of interest The authors disclose no conflicts.

: Funding This study was supported in part by Deutsche Forschungsgemeinschaft grants ZI1386/2-1 (H.Z.) and HO4460/3-1 (S.H.), and by Verein zur Förderung von Wissenschaft und Forschung at the Faculty of Medicine, LMU Munich, grant 7/16 (S.H.).

^∗: Authors share co-first authorship.

^§: Authors share co-senior authorship.