Your search keyword '"Yulia A. Nevzorova"' showing total 14 results

1. Fecal microbiota transplantation from female donors restores gut permeability and reduces liver injury and inflammation in middle-aged male mice exposed to alcohol

Author

Arantza Lamas-Paz, Mariana Mesquita, Marcos Garcia-Lacarte, Olga Estévez-Vázquez, Raquel Benedé-Ubieto, Alejandro H. Gutierrez, Hanghang Wu, Hector Leal Lasalle, Javier Vaquero, Rafael Bañares, Eduardo Martínez-Naves, Sergio Roa, Yulia A. Nevzorova, Gonzalo Jorquera, and Francisco Javier Cubero

Subjects

alcohol and gender, gut-liver axis, fecal microbiota transplantation, steatosis, senescence, Nutrition. Foods and food supply, TX341-641

Abstract

BackgroundAlcohol misuse, binge drinking pattern, and gender-specific effects in the middle-aged population has been clearly underestimated. In the present study, we focused on understanding gender-specific effects of alcohol exposure on the gut-liver axis and the role of gut microbiota in modulating gender-specific responses to alcohol consumption.MethodsFifty-two-week-old female and male C57BL/6 mice were fasted for 12 h, and then administered a single oral dose of ethanol (EtOH) (6 g/kg). Controls were given a single dose of PBS. Animals were sacrificed 8 h later. Alternatively, fecal microbiota transplantation (FMT) was performed in 52-week-old male mice from female donors of the same age. Permeability of the large intestine (colon), gut microbiota, liver injury, and inflammation was thoroughly evaluated in all groups.ResultsMiddle-aged male mice exposed to EtOH showed a significant increase in gut permeability in the large intestine, evaluated by FITC-dextran assay and ZO-1, OCCLUDIN and MUCIN-2 immuno-staining, compared to PBS-treated animals, whilst female mice of the same age also increased their gut permeability, but displayed a partially maintained intestinal barrier integrity. Moreover, there was a significant up-regulation of TLRs and markers of hepatocellular injury, cell death (AST, TUNEL-positive cells) and lipid accumulation (ORO) in male mice after EtOH exposure. Interestingly, FMT from female donors to male mice reduced gut leakiness, modified gut microbiota composition, ameliorated liver injury and inflammation, TLR activation and the senescence phenotype of middle-aged mice.ConclusionOur findings highlighted the relevance of gender in middle-aged individuals who are exposed to alcohol in the gut-liver axis. Moreover, our study revealed that gender-specific microbiota transplantation might be a plausible therapy in the management of alcohol-related disorders during aging.

Published

2024

2. Expression of Cyclin E1 in hepatic stellate cells is critical for the induction and progression of liver fibrosis and hepatocellular carcinoma in mice

Author

Julia Otto, Anna Verwaayen, Christian Penners, Jana Hundertmark, Cheng Lin, Carina Kallen, Daniela Paffen, Tobias Otto, Hilmar Berger, Frank Tacke, Ralf Weiskirchen, Yulia A. Nevzorova, Matthias Bartneck, Christian Trautwein, Roland Sonntag, and Christian Liedtke

Subjects

Cytology, QH573-671

Abstract

Abstract Hepatocellular carcinoma (HCC) is one of the most severe malignancies with increasing incidence and limited treatment options. Typically, HCC develops during a multistep process involving chronic liver inflammation and liver fibrosis. The latter is characterized by the accumulation of extracellular matrix produced by Hepatic Stellate Cells (HSCs). This process involves cell cycle re-entry and proliferation of normally quiescent HSCs in an ordered sequence that is highly regulated by cyclins and associated cyclin-dependent kinases (CDKs) such as the Cyclin E1 (CCNE1)/CDK2 kinase complex. In the present study, we examined the role of Cyclin E1 (Ccne1) and Cdk2 genes in HSCs for liver fibrogenesis and hepatocarcinogenesis. To this end, we generated conditional knockout mice lacking Ccne1 or Cdk2 specifically in HSCs (Ccne1 ∆HSC or Cdk2 ∆HSC). Ccne1 ∆HSC mice showed significantly reduced liver fibrosis formation and attenuated HSC activation in the carbon tetrachloride (CCl4) model. In a combined model of fibrosis-driven hepatocarcinogenesis, Ccne1 ∆HSC mice revealed decreased HSC activation even after long-term observation and substantially reduced tumor load in the liver when compared to wild-type controls. Importantly, the deletion of Cdk2 in HSCs also resulted in attenuated liver fibrosis after chronic CCl4 treatment. Single-cell RNA sequencing revealed that only a small fraction of HSCs expressed Ccne1/Cdk2 at a distinct time point after CCl4 treatment. In summary, we provide evidence that Ccne1 expression in a small population of HSCs is sufficient to trigger extensive liver fibrosis and hepatocarcinogenesis in a Cdk2-dependent manner. Thus, HSC-specific targeting of Ccne1 or Cdk2 in patients with liver fibrosis and high risk for HCC development could be therapeutically beneficial.

Published

2023

3. Neuroblastoma RAS viral oncogene homolog (N-RAS) deficiency aggravates liver injury and fibrosis

Author

Kang Zheng, Fengjie Hao, Sandra Medrano-Garcia, Chaobo Chen, Feifei Guo, Laura Morán-Blanco, Sandra Rodríguez-Perales, Raúl Torres-Ruiz, María Isabel Peligros, Javier Vaquero, Rafael Bañares, Manuel Gómez del Moral, José R. Regueiro, Eduardo Martínez-Naves, Mohamed Ramadan Mohamed, Rocío Gallego-Durán, Douglas Maya, Javier Ampuero, Manuel Romero-Gómez, Albert Gilbert-Ramos, Sergi Guixé-Muntet, Anabel Fernández-Iglesias, Jordi Gracia-Sancho, Mar Coll, Isabel Graupera, Pere Ginès, Andreea Ciudin, Jesús Rivera-Esteban, Juan M. Pericàs, María Dolores Frutos, Bruno Ramos Molina, José María Herranz, Matías A. Ávila, Yulia A. Nevzorova, Edgar Fernández-Malavé, and Francisco Javier Cubero

Subjects

Cytology, QH573-671

Abstract

Abstract Progressive hepatic damage and fibrosis are major features of chronic liver diseases of different etiology, yet the underlying molecular mechanisms remain to be fully defined. N-RAS, a member of the RAS family of small guanine nucleotide-binding proteins also encompassing the highly homologous H-RAS and K-RAS isoforms, was previously reported to modulate cell death and renal fibrosis; however, its role in liver damage and fibrogenesis remains unknown. Here, we approached this question by using N-RAS deficient (N-RAS−/−) mice and two experimental models of liver injury and fibrosis, namely carbon tetrachloride (CCl4) intoxication and bile duct ligation (BDL). In wild-type (N-RAS+/+) mice both hepatotoxic procedures augmented N-RAS expression in the liver. Compared to N-RAS+/+ counterparts, N-RAS−/− mice subjected to either CCl4 or BDL showed exacerbated liver injury and fibrosis, which was associated with enhanced hepatic stellate cell (HSC) activation and leukocyte infiltration in the damaged liver. At the molecular level, after CCl4 or BDL, N-RAS−/− livers exhibited augmented expression of necroptotic death markers along with JNK1/2 hyperactivation. In line with this, N-RAS ablation in a human hepatocytic cell line resulted in enhanced activation of JNK and necroptosis mediators in response to cell death stimuli. Of note, loss of hepatic N-RAS expression was characteristic of chronic liver disease patients with fibrosis. Collectively, our study unveils a novel role for N-RAS as a negative controller of the progression of liver injury and fibrogenesis, by critically downregulating signaling pathways leading to hepatocyte necroptosis. Furthermore, it suggests that N-RAS may be of potential clinical value as prognostic biomarker of progressive fibrotic liver damage, or as a novel therapeutic target for the treatment of chronic liver disease.

Published

2023

4. Role of oxidative stress and endoplasmic reticulum stress in drug-induced liver injury

Author

Hanghang Wu, Xiyuan Bao, Alejandro H. Gutierrez, Yulia A. Nevzorova, and Francisco Javier Cubero

Subjects

reactive nitrogen species, reactive oxygen species, endoplasmic reticulum stress, unfolded protein response, drug-induced liver injury, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

The pathogenesis of drug-induced liver injury (DILI) is still in an early stage of research. However, investigators have shown that both oxidative stress and endoplasmic reticulum (ER) stress play a significant role in the pathological mechanism. However, there is little in-depth literature about these two mechanisms. In order to prevent and improve the clinical symptoms of DILI, it is particularly important to study its pathogenesis. In this review article, the role of ER and oxidative stress in DILI is thoroughly discussed.

Published

2023

5. Anti-miR-873-5p improves alcohol-related liver disease by enhancing hepatic deacetylation via SIRT1

Author

Rubén Rodríguez-Agudo, Irene González-Recio, Marina Serrano-Maciá, Miren Bravo, Petar Petrov, Delia Blaya, Jose María Herranz, María Mercado-Gómez, Claudia María Rejano-Gordillo, Sofía Lachiondo-Ortega, Clàudia Gil-Pitarch, Mikel Azkargorta, Sebastiaan Martijn Van Liempd, Luis Alfonso Martinez-Cruz, A.L. Simão, Félix Elortza, César Martín, Yulia A. Nevzorova, Francisco Javier Cubero, Teresa C. Delgado, Josepmaria Argemi, Ramón Bataller, Kristina Schoonjans, Jesús M. Banales, Rui E. Castro, Pau Sancho-Bru, Matías A. Avila, Josep Julve, Ramiro Jover, Jon Mabe, Jorge Simon, Naroa Goikoetxea-Usandizaga, and María L. Martínez-Chantar

Subjects

Alcohol-related liver disease, NIAAA model, microRNA, SIRT1, Nicotinamide adenine dinucleotide salvage pathway, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Background & Aims: Current therapies for the treatment of alcohol-related liver disease (ALD) have proven largely ineffective. Patients relapse and the disease progresses even after liver transplantation. Altered epigenetic mechanisms are characteristic of alcohol metabolism given excessive acetate and NAD depletion and play an important role in liver injury. In this regard, novel therapeutic approaches based on epigenetic modulators are increasingly proposed. MicroRNAs, epigenetic modulators acting at the post-transcriptional level, appear to be promising new targets for the treatment of ALD. Methods: MiR-873-5p levels were measured in 23 liver tissue from Patients with ALD, and GNMT levels during ALD were confirmed using expression databases (transcriptome n = 62, proteome n = 68). High-resolution proteomics and metabolomics in mice following the Gao-binge model were used to investigate miR-873-5p expression in ALD. Hepatocytes exposed to 50 mM alcohol for 12 h were used to study toxicity. The effect of anti-miR-873-5p in the treatment outcomes of ALD was investigated. Results: The analysis of human and preclinical ALD samples revealed increased expression of miR-873-5p in the liver. Interestingly, there was an inverse correlation with NNMT, suggesting a novel mechanism for NAD depletion and aberrant acetylation during ALD progression. High-resolution proteomics and metabolomics identified miR-873-5p as a key regulator of NAD metabolism and SIRT1 deacetylase activity. Anti-miR-873-5p reduced NNMT activity, fuelled the NAD salvage pathway, restored the acetylome, and modulated the levels of NF-κB and FXR, two known SIRT1 substrates, thereby protecting the liver from apoptotic and inflammatory processes, and improving bile acid homeostasis. Conclusions: These data indicate that targeting miR-873-5p, a repressor of GNMT previously associated with NAFLD and acetaminophen-induced liver failure. is a novel and attractive approach to treating alcohol-induced hepatoxicity. Impact and implications: The role of miR-873-5p has not been explicitly examined in the progression of ALD, a pathology with no therapeutic options. In this study, inhibiting miR-873-5p exerted hepatoprotective effects against ALD through rescued SIRT1 activity and consequently restored bile acid homeostasis and attenuated the inflammatory response. Targeting hepatic miR-873-5p may represent a novel therapeutic approach for the treatment of ALD.

Published

2024

6. Obesity under the moonlight of c-MYC

Author

Yulia A. Nevzorova and Francisco Javier Cubero

Subjects

c-Myc, obesity, MASLD, gut-liver axis, T2DM, Biology (General), QH301-705.5

Abstract

The moonlighting protein c-Myc is a master regulator of multiple biological processes including cell proliferation, differentiation, angiogenesis, apoptosis and metabolism. It is constitutively and aberrantly expressed in more than 70% of human cancers. Overwhelming evidence suggests that c-Myc dysregulation is involved in several inflammatory, autoimmune, metabolic and other non-cancerous diseases. In this review, we addressed the role of c-Myc in obesity. Obesity is a systemic disease, accompanied by multi-organ dysfunction apart from white adipose tissue (WAT), such as the liver, the pancreas, and the intestine. c-Myc plays a big diversity of functions regulating cellular proliferation, the maturation of progenitor cells, fatty acids (FAs) metabolism, and extracellular matrix (ECM) remodeling. Moreover, c-Myc drives the expression of a wide range of metabolic genes, modulates the inflammatory response, induces insulin resistance (IR), and contributes to the regulation of intestinal dysbiosis. Altogether, c-Myc is an interesting diagnostic tool and/or therapeutic target in order to mitigate obesity and its consequences.

Published

2023

7. Genetic and pharmacological inhibition of XBP1 protects against APAP hepatotoxicity through the activation of autophagy

Author

Hui Ye, Chaobo Chen, Hanghang Wu, Kang Zheng, Beatriz Martín-Adrados, Esther Caparros, Rubén Francés, Leonard J. Nelson, Manuel Gómez del Moral, Iris Asensio, Javier Vaquero, Rafael Bañares, Matías A. Ávila, Raúl J. Andrade, M. Isabel Lucena, Maria Luz Martínez-Chantar, Helen L. Reeves, Steven Masson, Richard S. Blumberg, Jordi Gracia-Sancho, Yulia A. Nevzorova, Eduardo Martínez-Naves, and Francisco Javier Cubero

Subjects

Cytology, QH573-671

Abstract

Abstract Acetaminophen (APAP) hepatotoxicity induces endoplasmic reticulum (ER) stress which triggers the unfolded protein response (UPR) in hepatocytes. However, the mechanisms underlying ER stress remain poorly understood, thus reducing the options for exploring new pharmacological therapies for patients with hyperacute liver injury. Eight-to-twelve-week-old C57BL/6J Xbp1-floxed (Xbp1 f/f ) and hepatocyte-specific knockout Xbp1 mice (Xbp1 ∆hepa ) were challenged with either high dose APAP [500 mg/kg] and sacrificed at early (1–2 h) and late (24 h) stages of hepatotoxicity. Histopathological examination of livers, immunofluorescence and immunohistochemistry, Western blot, real time (RT)-qPCR studies and transmission electron microscopy (TEM) were performed. Pharmacological inhibition of XBP1 using pre-treatment with STF-083010 [STF, 75 mg/kg] and autophagy induction with Rapamycin [RAPA, 8 mg/kg] or blockade with Chloroquine [CQ, 60 mg/kg] was also undertaken in vivo. Cytoplasmic expression of XBP1 coincided with severity of human and murine hyperacute liver injury. Transcriptional and translational activation of the UPR and sustained activation of JNK1/2 were major events in APAP hepatotoxicity, both in a human hepatocytic cell line and in a preclinical model. Xbp1 ∆hepa livers showed decreased UPR and JNK1/2 activation but enhanced autophagy in response to high dose APAP. Additionally, blockade of XBP1 splicing by STF, mitigated APAP-induced liver injury and without non-specific off-target effects (e.g., CYP2E1 activity). Furthermore, enhanced autophagy might be responsible for modulating CYP2E1 activity in Xbp1 ∆hepa animals. Genetic and pharmacological inhibition of Xbp1 specifically in hepatocytes ameliorated APAP-induced liver injury by enhancing autophagy and decreasing CYP2E1 expression. These findings provide the basis for the therapeutic restoration of ER stress and/or induction of autophagy in patients with hyperacute liver injury.

Published

2022

8. Liver Fibrosis—From Mechanisms of Injury to Modulation of Disease

Author

Christian Liedtke, Yulia A. Nevzorova, Tom Luedde, Henning Zimmermann, Daniela Kroy, Pavel Strnad, Marie-Luise Berres, Jürgen Bernhagen, Frank Tacke, Jacob Nattermann, Ulrich Spengler, Tilman Sauerbruch, Alexander Wree, Zeinab Abdullah, René H. Tolba, Jonel Trebicka, Twan Lammers, Christian Trautwein, and Ralf Weiskirchen

Subjects

hepatic stellate cell, hepatocytes, inflammation, chemokines, cytokines, cirrhosis, Medicine (General), R5-920

Abstract

The Transregional Collaborative Research Center “Organ Fibrosis: From Mechanisms of Injury to Modulation of Disease” (referred to as SFB/TRR57) was funded for 13 years (2009–2021) by the German Research Council (DFG). This consortium was hosted by the Medical Schools of the RWTH Aachen University and Bonn University in Germany. The SFB/TRR57 implemented combined basic and clinical research to achieve detailed knowledge in three selected key questions: (i) What are the relevant mechanisms and signal pathways required for initiating organ fibrosis? (ii) Which immunological mechanisms and molecules contribute to organ fibrosis? and (iii) How can organ fibrosis be modulated, e.g., by interventional strategies including imaging and pharmacological approaches? In this review we will summarize the liver-related key findings of this consortium gained within the last 12 years on these three aspects of liver fibrogenesis. We will highlight the role of cell death and cell cycle pathways as well as nutritional and iron-related mechanisms for liver fibrosis initiation. Moreover, we will define and characterize the major immune cell compartments relevant for liver fibrogenesis, and finally point to potential signaling pathways and pharmacological targets that turned out to be suitable to develop novel approaches for improved therapy and diagnosis of liver fibrosis. In summary, this review will provide a comprehensive overview about the knowledge on liver fibrogenesis and its potential therapy gained by the SFB/TRR57 consortium within the last decade. The kidney-related research results obtained by the same consortium are highlighted in an article published back-to-back in Frontiers in Medicine.

Published

2022

9. Novel therapeutic avenues for the study of chronic liver disease and regeneration: The foundation of the Iberoamerican Consortium for the study of liver Cirrhosis

Author

Carlos Sanz-Garcia, Yulia A. Nevzorova, Eduardo Martínez-Naves, Francisco Javier Cubero, Alejandro Hionides-Gutierrez, Jose Ramón Sañudo, Carlos Enrich, Carles Rentero, Pau Sancho-Bru, Ricardo U. Macías-Rodriguez, Astrid Ruiz-Margain, David Kershenobich-Stalnikowitz, Nestor R. Vargas, Alberto E. Muñoz, and Helder I. Nakaya

Subjects

Hepatology, Gastroenterology, General Medicine

Abstract

Unfortunately, there is a gap of understanding in the pathophysiology of chronic liver disease due to the lack of experimental models that exactly mimic the human disease. Additionally, the diagnosis of patients is very poor due to the lack of biomarkers than can detect the disease in early stages. Thus, it is of utmost interest the generation of a multidisciplinary consortium from different countries with a direct translation. The present reports the meeting of the 2021 Iberoamerican Consortium for the study of liver Cirrhosis, held online, in October 2021. The meeting, was focused on the recent advancements in the field of chronic liver disease and cirrhosis with a specific focus on cell pathobiology and liver regeneration, molecular and cellular targets involved in non-alcoholic hepatic steatohepatitis, alcoholic liver disease (ALD), both ALD and western diet, and end-stage liver cirrhosis and hepatocellular carcinoma. In addition, the meeting highlighted recent advances in targeted novel technology (-omics) and opening therapeutic avenues in this field of research.

Published

2023

10. The outcome of boosting mitochondrial activity in alcohol-associated liver disease is organ-dependent

Author

Naroa Goikoetxea-Usandizaga, Miren Bravo, Leire Egia-Mendikute, Leticia Abecia, Marina Serrano-Maciá, Rocío G. Urdinguio, Marc Clos-García, Rubén Rodríguez-Agudo, Raquel Araujo-Legido, Lucía López-Bermudo, Teresa C. Delgado, Sofía Lachiondo-Ortega, Irene González-Recio, Clàudia Gil-Pitarch, Ainize Peña-Cearra, Jorge Simón, Raquel Benedé-Ubieto, Silvia Ariño, Jose M. Herranz, Mikel Azkargorta, Julio Salazar-Bermeo, Nuria Martí, Marta Varela-Rey, Juan M. Falcón-Pérez, Óscar Lorenzo, Rubén Nogueiras, Félix Elortza, Yulia A. Nevzorova, Francisco J. Cubero, Domingo Saura, Luis Alfonso Martínez-Cruz, Guadalupe Sabio, Asís Palazón, Pau Sancho-Bru, Natalia Elguezabal, Mario F. Fraga, Matías A. Ávila, Ramón Bataller, José J.G. Marín, Franz Martín, and María Luz Martínez-Chantar

Subjects

Hepatology

Published

2023

11. Tumor progression locus 2 (TPL2): A Cot-plicated progression from inflammation to chronic liver disease

Author

Alejandro H. Gutierrez, Marina S. Mazariegos, Susana Alemany, Yulia A. Nevzorova, Francisco Javier Cubero, and Carlos Sanz-García

Subjects

Molecular Medicine, Molecular Biology

Published

2023

12. Lack of Cyclin E1 in hepatocytes aggravates ethanol-induced liver injury and hepatic steatosis in experimental murine model of acute and chronic alcohol-associated liver disease

Author

Pierluigi Ramadori, Marius Maximilian Woitok, Olga Estévez-Vázquez, Raquel Benedé-Ubieto, Hector Leal-Lassalle, Arantza Lamas-Paz, Feifei Guo, Jeanne Fabre, Julia Otto, Anna Verwaayen, Johanna Reissing, Tony Bruns, Stephanie Erschfeld, Ute Haas, Daniela Paffen, Leonard J. Nelson, Javier Vaquero, Rafael Bañares, Christian Trautwein, Francisco Javier Cubero, Christian Liedtke, and Yulia A. Nevzorova

Subjects

Molecular Medicine, Molecular Biology

Published

2023

13. A Shortcut from Metabolic-Associated Fatty Liver Disease (MAFLD) to Hepatocellular Carcinoma (HCC): c-MYC a Promising Target for Preventative Strategies and Individualized Therapy

Author

Feifei Guo, Olga Estévez-Vázquez, Raquel Benedé-Ubieto, Douglas Maya-Miles, Kang Zheng, Rocío Gallego-Durán, Ángela Rojas, Javier Ampuero, Manuel Romero-Gómez, Kaye Philip, Isioma U. Egbuniwe, Chaobo Chen, Jorge Simon, Teresa C. Delgado, María Luz Martínez-Chantar, Jie Sun, Johanna Reissing, Tony Bruns, Arantza Lamas-Paz, Manuel Gómez del Moral, Marius Maximilian Woitok, Javier Vaquero, José R. Regueiro, Christian Liedtke, Christian Trautwein, Rafael Bañares, Francisco Javier Cubero, Yulia A. Nevzorova, Ministerio de Economía y Competitividad (España), Comunidad de Madrid, Fundación Caixa Galicia, Universidad Complutense de Madrid, Asociación Española Contra el Cáncer, German Research Foundation, Gilead Research Scholars, China Scholarship Council, Banco Santander, Centro de Investigación Biomédica en Red Enfermedades Hepáticas y Digestivas (España), Junta de Andalucía, and Instituto de Salud Carlos III

Subjects

Gastroenterología y hepatología, Cancer Research, metabolic-associated fatty liver disease (MAFLD), Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Article, Metformin, Oncología, c-myc, oncogene, tumorigenesis, metformin, C-myc, Oncology, Tumorigenesis, Metabolic-associated fatty liver disease (MAFLD), RC254-282, Oncogene

Abstract

Metabolic-associated fatty liver disease (MAFLD) has risen as one of the leading etiologies for hepatocellular carcinoma (HCC). Oncogenes have been suggested to be responsible for the high risk of MAFLD-related HCC. We analyzed the impact of the proto-oncogene c-MYC in the development of human and murine MAFLD and MAFLD-associated HCC., This work was supported by the MINECO Retos SAF2016-78711, SAF2017-87919-R, PID2020-117827RB-IOO, PID2020-117941RB-IOO, PID2020-117116RB-I00, EXOHEP-CM S2017/BMD-3727, NanoLiver-CM Y2018/NMT-4949, AMMF 2018/117, COST Action CA17112 and UCM-25/2019, La Caixa Foundation Program HR17-00601; Asociación Española Contra el Cáncer (AECC PROYE20084REGU); the German Research Foundation (SFB1382 Project ID 403224013/A02). FJC and YAN are Ramón y Cajal Researchers RYC-2014-15242 and RYC-2015-17438, respectively. FJC is a Gilead Liver Research Scholar. The research group belongs to the validated Research Groups Ref. 970935 “Liver Pathophysiology”, 920631 “Lymphocyte immunobiology”, 920361 “Inmunogenética e inmunología de las mucosas” and IBL-6 (imas12-associated). FG and KZ are Chinese Scholarship Council (CSC) fellows. O.E.-V is supported by Beca FPI associated to MINECO SAR2017-87919R and R.B.-U by programa de Financiación de Universidad Complutense de Madrid—Banco Santander, CT63/19. DMM contract is supported by CIBEREHD. DMM, MRG, AR, JA and RG receive support from the Andalusian government (Proyectos Estratégicos-Fondos Feder PE-0451-2018) and from the Instituto de Salud Carlos III (PI16/01842, PI19/01404; PI19/00589). TB is supported by the German Research Foundation (SFB1382 Project ID 403224013/B07).

Published

2022

14. Activation of the Unfolded Protein Response (UPR) Is Associated with Cholangiocellular Injury, Fibrosis and Carcinogenesis in an Experimental Model of Fibropolycystic Liver Disease

Author

Chaobo Chen, Hanghang Wu, Hui Ye, Agustín Tortajada, Sandra Rodríguez-Perales, Raúl Torres-Ruiz, August Vidal, Maria Isabel Peligros, Johanna Reissing, Tony Bruns, Mohamed Ramadan Mohamed, Kang Zheng, Amaia Lujambio, Maria J. Iraburu, Leticia Colyn, Maria Ujue Latasa, María Arechederra, Maite G. Fernández-Barrena, Carmen Berasain, Javier Vaquero, Rafael Bañares, Leonard J. Nelson, Christian Trautwein, Roger J. Davis, Eduardo Martinez-Naves, Yulia A. Nevzorova, Alberto Villanueva, Matias A. Avila, and Francisco Javier Cubero

Subjects

Cancer Research, c-Jun N-terminal kinases (JNK), Carcinogenesis, Malalties del fetge, cholangiocarcinoma (CCA), Neoplasms. Tumors. Oncology. Including cancer and carcinogens, endoplasmic reticulum (ER) stress, Stressthioacetamide (TAA), Article, Oncology, fibropolycystic liver disease, thioacetamide (TAA), CM272, Cholangiocarcinoma (CCA), Endoplasmic reticulum (ER), Carcinogènesi, RC254-282, Liver diseases, Fibropolycystic liver disease

Abstract

Simple Summary Polycystic liver disease (PLD) is a group of rare disorders that result from structural changes in the biliary tree development in the liver. In the present work, we studied alterations in molecular mechanisms and signaling pathways that might be responsible for these pathologies. We found that activation of the unfolded protein response, a process that occurs in response to an accumulation of unfolded or misfolded proteins in the lumen of the endoplasmic reticulum, as well as the scarring of the liver tissue, contribute to the pathogenesis of PLD and the development of cancer. As a preclinical animal model we have used mutant mice of a specific signaling pathway, the c-Jun N-terminal kinase 1/2 (Jnk1/2). These mice resemble a perfect model for the study of PLD and early cancer development. Abstract Fibropolycystic liver disease is characterized by hyperproliferation of the biliary epithelium and the formation of multiple dilated cysts, a process associated with unfolded protein response (UPR). In the present study, we aimed to understand the mechanisms of cyst formation and UPR activation in hepatocytic c-Jun N-terminal kinase 1/2 (Jnk1/2) knockout mice. Floxed JNK1/2 (Jnkf/f) and Jnk∆hepa animals were sacrificed at different time points during progression of liver disease. Histological examination of specimens evidenced the presence of collagen fiber deposition, increased α-smooth muscle actin (αSMA), infiltration of CD45, CD11b and F4/80 cells and proinflammatory cytokines (Tnf, Tgfβ1) and liver injury (e.g., ALT, apoptosis and Ki67-positive cells) in Jnk∆hepa compared with Jnkf/f livers from 32 weeks of age. This was associated with activation of effectors of the UPR, including BiP/GRP78, CHOP and spliced XBP1. Tunicamycin (TM) challenge strongly induced ER stress and fibrosis in Jnk∆hepa animals compared with Jnkf/f littermates. Finally, thioacetamide (TAA) administration to Jnk∆hepa mice induced UPR activation, peribiliary fibrosis, liver injury and markers of biliary proliferation and cholangiocarcinoma (CCA). Orthoallografts of DEN/CCl4-treated Jnk∆hepa liver tissue triggered malignant CCA. Altogether, these results suggest that activation of the UPR in conjunction with fibrogenesis might trigger hepatic cystogenesis and early stages of CCA.

Published

2021