Interruption of bile acid uptake by hepatocytes after acetaminophen overdose ameliorates hepatotoxicity

BACKGROUND & AIMS: Acetaminophen (APAP) overdose remains a frequent cause of acute liver failure, which is generally accompanied by increased levels of serum bile acids (BAs). However, the pathophysiological role of BAs remains elusive. Herein, we investigated the role of BAs in APAP-induced hep...

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Autores principales: Ghallab, Ahmed, Hassan, Reham, Hofmann, Ute, Friebel, Adrian, Hobloss, Zaynab, Brackhagen, Lisa, Begher-Tibbe, Brigitte, Myllys, Maiju, Reinders, Joerg, Overbeck, Nina, Sezgin, Selahaddin, Zühlke, Sebastian, Seddek, Abdel-latif, Murad, Walaa, Brecklinghaus, Tim, Kappenberg, Franziska, Rahnenführer, Jörg, González, Daniela, Goldring, Christopher, Copple, Ian M., Marchan, Rosemarie, Longerich, Thomas, Vucur, Mihael, Luedde, Tom, Urban, Stephan, Canbay, Ali, Schreiter, Thomas, Trauner, Michael, Akakpo, Jephte Y., Olyaee, Mojtaba, Curry, Steven C., Sowa, Jan-Peter, Jaeschke, Hartmut, Hoehme, Stefan, Hengstler, Jan G.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2022
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9209783/
https://www.ncbi.nlm.nih.gov/pubmed/35131407
http://dx.doi.org/10.1016/j.jhep.2022.01.020
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author Ghallab, Ahmed
Hassan, Reham
Hofmann, Ute
Friebel, Adrian
Hobloss, Zaynab
Brackhagen, Lisa
Begher-Tibbe, Brigitte
Myllys, Maiju
Reinders, Joerg
Overbeck, Nina
Sezgin, Selahaddin
Zühlke, Sebastian
Seddek, Abdel-latif
Murad, Walaa
Brecklinghaus, Tim
Kappenberg, Franziska
Rahnenführer, Jörg
González, Daniela
Goldring, Christopher
Copple, Ian M.
Marchan, Rosemarie
Longerich, Thomas
Vucur, Mihael
Luedde, Tom
Urban, Stephan
Canbay, Ali
Schreiter, Thomas
Trauner, Michael
Akakpo, Jephte Y.
Olyaee, Mojtaba
Curry, Steven C.
Sowa, Jan-Peter
Jaeschke, Hartmut
Hoehme, Stefan
Hengstler, Jan G.
author_facet Ghallab, Ahmed
Hassan, Reham
Hofmann, Ute
Friebel, Adrian
Hobloss, Zaynab
Brackhagen, Lisa
Begher-Tibbe, Brigitte
Myllys, Maiju
Reinders, Joerg
Overbeck, Nina
Sezgin, Selahaddin
Zühlke, Sebastian
Seddek, Abdel-latif
Murad, Walaa
Brecklinghaus, Tim
Kappenberg, Franziska
Rahnenführer, Jörg
González, Daniela
Goldring, Christopher
Copple, Ian M.
Marchan, Rosemarie
Longerich, Thomas
Vucur, Mihael
Luedde, Tom
Urban, Stephan
Canbay, Ali
Schreiter, Thomas
Trauner, Michael
Akakpo, Jephte Y.
Olyaee, Mojtaba
Curry, Steven C.
Sowa, Jan-Peter
Jaeschke, Hartmut
Hoehme, Stefan
Hengstler, Jan G.
author_sort Ghallab, Ahmed
collection PubMed
description BACKGROUND & AIMS: Acetaminophen (APAP) overdose remains a frequent cause of acute liver failure, which is generally accompanied by increased levels of serum bile acids (BAs). However, the pathophysiological role of BAs remains elusive. Herein, we investigated the role of BAs in APAP-induced hepatotoxicity. METHODS: We performed intravital imaging to investigate BA transport in mice, quantified endogenous BA concentrations in the serum of mice and patients with APAP overdose, analyzed liver tissue and bile by mass spectrometry and MALDI-mass spectrometry imaging, assessed the integrity of the blood-bile barrier and the role of oxidative stress by immunostaining of tight junction proteins and intravital imaging of fluorescent markers, identified the intracellular cytotoxic concentrations of BAs, and performed interventions to block BA uptake from blood into hepatocytes. RESULTS: Prior to the onset of cell death, APAP overdose causes massive oxidative stress in the pericentral lobular zone, which coincided with a breach of the blood-bile barrier. Consequently, BAs leak from the bile canaliculi into the sinusoidal blood, which is then followed by their uptake into hepatocytes via the basolateral membrane, their secretion into canaliculi and repeated cycling. This, what we termed ‘futile cycling’ of BAs, led to increased intracellular BA concentrations that were high enough to cause hepatocyte death. Importantly, however, the interruption of BA re-uptake by pharmacological NTCP blockage using Myrcludex B and Oatp knockout strongly reduced APAP-induced hepatotoxicity. CONCLUSIONS: APAP overdose induces a breach of the blood-bile barrier which leads to futile BA cycling that causes hepatocyte death. Prevention of BA cycling may represent a therapeutic option after APAP intoxication. LAY SUMMARY: Only one drug, N-acetylcysteine, is approved for the treatment of acetaminophen overdose and it is only effective when given within ∼8 hours after ingestion. We identified a mechanism by which acetaminophen overdose causes an increase in bile acid concentrations (to above toxic thresholds) in hepatocytes. Blocking this mechanism prevented acetaminophen-induced hepatotoxicity in mice and evidence from patients suggests that this therapy may be effective for longer periods after ingestion compared to N-acetylcysteine.
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spelling pubmed-92097832022-07-01 Interruption of bile acid uptake by hepatocytes after acetaminophen overdose ameliorates hepatotoxicity Ghallab, Ahmed Hassan, Reham Hofmann, Ute Friebel, Adrian Hobloss, Zaynab Brackhagen, Lisa Begher-Tibbe, Brigitte Myllys, Maiju Reinders, Joerg Overbeck, Nina Sezgin, Selahaddin Zühlke, Sebastian Seddek, Abdel-latif Murad, Walaa Brecklinghaus, Tim Kappenberg, Franziska Rahnenführer, Jörg González, Daniela Goldring, Christopher Copple, Ian M. Marchan, Rosemarie Longerich, Thomas Vucur, Mihael Luedde, Tom Urban, Stephan Canbay, Ali Schreiter, Thomas Trauner, Michael Akakpo, Jephte Y. Olyaee, Mojtaba Curry, Steven C. Sowa, Jan-Peter Jaeschke, Hartmut Hoehme, Stefan Hengstler, Jan G. J Hepatol Research Article BACKGROUND & AIMS: Acetaminophen (APAP) overdose remains a frequent cause of acute liver failure, which is generally accompanied by increased levels of serum bile acids (BAs). However, the pathophysiological role of BAs remains elusive. Herein, we investigated the role of BAs in APAP-induced hepatotoxicity. METHODS: We performed intravital imaging to investigate BA transport in mice, quantified endogenous BA concentrations in the serum of mice and patients with APAP overdose, analyzed liver tissue and bile by mass spectrometry and MALDI-mass spectrometry imaging, assessed the integrity of the blood-bile barrier and the role of oxidative stress by immunostaining of tight junction proteins and intravital imaging of fluorescent markers, identified the intracellular cytotoxic concentrations of BAs, and performed interventions to block BA uptake from blood into hepatocytes. RESULTS: Prior to the onset of cell death, APAP overdose causes massive oxidative stress in the pericentral lobular zone, which coincided with a breach of the blood-bile barrier. Consequently, BAs leak from the bile canaliculi into the sinusoidal blood, which is then followed by their uptake into hepatocytes via the basolateral membrane, their secretion into canaliculi and repeated cycling. This, what we termed ‘futile cycling’ of BAs, led to increased intracellular BA concentrations that were high enough to cause hepatocyte death. Importantly, however, the interruption of BA re-uptake by pharmacological NTCP blockage using Myrcludex B and Oatp knockout strongly reduced APAP-induced hepatotoxicity. CONCLUSIONS: APAP overdose induces a breach of the blood-bile barrier which leads to futile BA cycling that causes hepatocyte death. Prevention of BA cycling may represent a therapeutic option after APAP intoxication. LAY SUMMARY: Only one drug, N-acetylcysteine, is approved for the treatment of acetaminophen overdose and it is only effective when given within ∼8 hours after ingestion. We identified a mechanism by which acetaminophen overdose causes an increase in bile acid concentrations (to above toxic thresholds) in hepatocytes. Blocking this mechanism prevented acetaminophen-induced hepatotoxicity in mice and evidence from patients suggests that this therapy may be effective for longer periods after ingestion compared to N-acetylcysteine. Elsevier 2022-07 /pmc/articles/PMC9209783/ /pubmed/35131407 http://dx.doi.org/10.1016/j.jhep.2022.01.020 Text en © 2022 The Author(s) https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/).
spellingShingle Research Article
Ghallab, Ahmed
Hassan, Reham
Hofmann, Ute
Friebel, Adrian
Hobloss, Zaynab
Brackhagen, Lisa
Begher-Tibbe, Brigitte
Myllys, Maiju
Reinders, Joerg
Overbeck, Nina
Sezgin, Selahaddin
Zühlke, Sebastian
Seddek, Abdel-latif
Murad, Walaa
Brecklinghaus, Tim
Kappenberg, Franziska
Rahnenführer, Jörg
González, Daniela
Goldring, Christopher
Copple, Ian M.
Marchan, Rosemarie
Longerich, Thomas
Vucur, Mihael
Luedde, Tom
Urban, Stephan
Canbay, Ali
Schreiter, Thomas
Trauner, Michael
Akakpo, Jephte Y.
Olyaee, Mojtaba
Curry, Steven C.
Sowa, Jan-Peter
Jaeschke, Hartmut
Hoehme, Stefan
Hengstler, Jan G.
Interruption of bile acid uptake by hepatocytes after acetaminophen overdose ameliorates hepatotoxicity
title Interruption of bile acid uptake by hepatocytes after acetaminophen overdose ameliorates hepatotoxicity
title_full Interruption of bile acid uptake by hepatocytes after acetaminophen overdose ameliorates hepatotoxicity
title_fullStr Interruption of bile acid uptake by hepatocytes after acetaminophen overdose ameliorates hepatotoxicity
title_full_unstemmed Interruption of bile acid uptake by hepatocytes after acetaminophen overdose ameliorates hepatotoxicity
title_short Interruption of bile acid uptake by hepatocytes after acetaminophen overdose ameliorates hepatotoxicity
title_sort interruption of bile acid uptake by hepatocytes after acetaminophen overdose ameliorates hepatotoxicity
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9209783/
https://www.ncbi.nlm.nih.gov/pubmed/35131407
http://dx.doi.org/10.1016/j.jhep.2022.01.020
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