Transforming growth factor‐beta 1: A new factor reducing hepatic SHBG production in liver fibrosis

Low plasma sex hormone‐binding globulin (SHBG) levels are present in fatty liver disease, which represents a spectrum of diseases ranging from hepatocellular steatosis through steatohepatitis to fibrosis and irreversible cirrhosis. We have previously determined that fat accumulation reduces SHBG pro...

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Published inJournal of cellular physiology Vol. 237; no. 9; pp. 3598 - 3613
Main Authors Briansó‐Llort, Laura, Fuertes‐Rioja, Lidia, Ramos‐Perez, Lorena, Salcedo‐Allende, Maria Teresa, Hernandez, Cristina, Simó, Rafael, Selva, David M.
Format Journal Article
LanguageEnglish
Published Hoboken Wiley Subscription Services, Inc 01.09.2022
Subjects
Animal models
Carbon tetrachloride
Cirrhosis
Fatty liver
Fibrosis
Gene silencing
Globulins
Growth factors
hepatic fibrosis
Hepatocyte nuclear factor 4
HNF‐4α isoforms
Human performance
In vivo methods and tests
Isoforms
Liver
Liver cirrhosis
Liver diseases
Molecular modelling
mRNA
Plasma levels
Reduction
Sex hormones
Smad3 protein
Stat3 protein
Steatosis
TGF‐β1
Transforming growth factor-b1
Transgenic animals
Transgenic mice
transgenic mice and HepG2 cells
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Abstract Low plasma sex hormone‐binding globulin (SHBG) levels are present in fatty liver disease, which represents a spectrum of diseases ranging from hepatocellular steatosis through steatohepatitis to fibrosis and irreversible cirrhosis. We have previously determined that fat accumulation reduces SHBG production in different nonalcoholic fatty liver disease mouse models. In the present work, we are interested in elucidating the molecular mechanisms reducing SHBG plasma levels in liver fibrosis. For this purpose, in vivo studies were performed using the human SHBG transgenic mice developing liver fibrosis induced by carbon tetrachloride (CCl4). Our results clearly showed that CCl4 induced liver fibrosis and reduced SHBG production by reducing hepatocyte nuclear factor 4 alpha (HNF‐4α). The SHBG reduction could be influenced by the increase in transforming growth factor‐beta 1 (TGF‐β1), which was increased in mice developing liver fibrosis. Therefore, we decided to evaluate the role of TGF‐β1 in regulating hepatic SHBG production. Results obtained in both HepG2 cells and human SHBG transgenic mice showed that TGF‐β1 reduced significantly SHBG messenger RNA and protein levels. Mechanistically TGF‐β1 downregulated P1‐HNF‐4α isoforms and increased P2‐HNF‐4α isoforms via Smad3 and Stat3 pathways through TGF‐β1 receptor I, resulting in transcriptional repression of the SHBG gene. Taken together, we found for the first time that TGF‐β1 is a new factor regulating hepatic SHBG production in liver fibrosis. Further research is needed to determine the role of this reduction in hepatic SHBG production in the progression of nonalcoholic steatohepatitis. During CCl4‐induced acute liver injury in mice, there is an increase in TGF‐β1 production. TGF‐β1 activates hepatic stellate cells which are responsible for collagen production. In hepatocytes, TGF‐β1 reduces P1‐HNF‐4α isoforms and increases P2‐HNF‐4α isoforms via Smad and Stat signaling pathways through TGF‐β1 receptor I, which, in turn, reduces SHBG expression in hepatocytes. KC, Kupffer cells; HSC, hepatic stellate cells; ECM, extracellular matrix.
AbstractList Low plasma sex hormone‐binding globulin (SHBG) levels are present in fatty liver disease, which represents a spectrum of diseases ranging from hepatocellular steatosis through steatohepatitis to fibrosis and irreversible cirrhosis. We have previously determined that fat accumulation reduces SHBG production in different nonalcoholic fatty liver disease mouse models. In the present work, we are interested in elucidating the molecular mechanisms reducing SHBG plasma levels in liver fibrosis. For this purpose, in vivo studies were performed using the human SHBG transgenic mice developing liver fibrosis induced by carbon tetrachloride (CCl4). Our results clearly showed that CCl4 induced liver fibrosis and reduced SHBG production by reducing hepatocyte nuclear factor 4 alpha (HNF‐4α). The SHBG reduction could be influenced by the increase in transforming growth factor‐beta 1 (TGF‐β1), which was increased in mice developing liver fibrosis. Therefore, we decided to evaluate the role of TGF‐β1 in regulating hepatic SHBG production. Results obtained in both HepG2 cells and human SHBG transgenic mice showed that TGF‐β1 reduced significantly SHBG messenger RNA and protein levels. Mechanistically TGF‐β1 downregulated P1‐HNF‐4α isoforms and increased P2‐HNF‐4α isoforms via Smad3 and Stat3 pathways through TGF‐β1 receptor I, resulting in transcriptional repression of the SHBG gene. Taken together, we found for the first time that TGF‐β1 is a new factor regulating hepatic SHBG production in liver fibrosis. Further research is needed to determine the role of this reduction in hepatic SHBG production in the progression of nonalcoholic steatohepatitis. During CCl4‐induced acute liver injury in mice, there is an increase in TGF‐β1 production. TGF‐β1 activates hepatic stellate cells which are responsible for collagen production. In hepatocytes, TGF‐β1 reduces P1‐HNF‐4α isoforms and increases P2‐HNF‐4α isoforms via Smad and Stat signaling pathways through TGF‐β1 receptor I, which, in turn, reduces SHBG expression in hepatocytes. KC, Kupffer cells; HSC, hepatic stellate cells; ECM, extracellular matrix.
Abstract Low plasma sex hormone‐binding globulin (SHBG) levels are present in fatty liver disease, which represents a spectrum of diseases ranging from hepatocellular steatosis through steatohepatitis to fibrosis and irreversible cirrhosis. We have previously determined that fat accumulation reduces SHBG production in different nonalcoholic fatty liver disease mouse models. In the present work, we are interested in elucidating the molecular mechanisms reducing SHBG plasma levels in liver fibrosis. For this purpose, in vivo studies were performed using the human SHBG transgenic mice developing liver fibrosis induced by carbon tetrachloride (CCl 4 ). Our results clearly showed that CCl 4 induced liver fibrosis and reduced SHBG production by reducing hepatocyte nuclear factor 4 alpha (HNF‐4α). The SHBG reduction could be influenced by the increase in transforming growth factor‐beta 1 (TGF‐β1), which was increased in mice developing liver fibrosis. Therefore, we decided to evaluate the role of TGF‐β1 in regulating hepatic SHBG production. Results obtained in both HepG2 cells and human SHBG transgenic mice showed that TGF‐β1 reduced significantly SHBG messenger RNA and protein levels. Mechanistically TGF‐β1 downregulated P1‐HNF‐4α isoforms and increased P2‐HNF‐4α isoforms via Smad3 and Stat3 pathways through TGF‐β1 receptor I, resulting in transcriptional repression of the SHBG gene. Taken together, we found for the first time that TGF‐β1 is a new factor regulating hepatic SHBG production in liver fibrosis. Further research is needed to determine the role of this reduction in hepatic SHBG production in the progression of nonalcoholic steatohepatitis.
Low plasma sex hormone‐binding globulin (SHBG) levels are present in fatty liver disease, which represents a spectrum of diseases ranging from hepatocellular steatosis through steatohepatitis to fibrosis and irreversible cirrhosis. We have previously determined that fat accumulation reduces SHBG production in different nonalcoholic fatty liver disease mouse models. In the present work, we are interested in elucidating the molecular mechanisms reducing SHBG plasma levels in liver fibrosis. For this purpose, in vivo studies were performed using the human SHBG transgenic mice developing liver fibrosis induced by carbon tetrachloride (CCl4). Our results clearly showed that CCl4 induced liver fibrosis and reduced SHBG production by reducing hepatocyte nuclear factor 4 alpha (HNF‐4α). The SHBG reduction could be influenced by the increase in transforming growth factor‐beta 1 (TGF‐β1), which was increased in mice developing liver fibrosis. Therefore, we decided to evaluate the role of TGF‐β1 in regulating hepatic SHBG production. Results obtained in both HepG2 cells and human SHBG transgenic mice showed that TGF‐β1 reduced significantly SHBG messenger RNA and protein levels. Mechanistically TGF‐β1 downregulated P1‐HNF‐4α isoforms and increased P2‐HNF‐4α isoforms via Smad3 and Stat3 pathways through TGF‐β1 receptor I, resulting in transcriptional repression of the SHBG gene. Taken together, we found for the first time that TGF‐β1 is a new factor regulating hepatic SHBG production in liver fibrosis. Further research is needed to determine the role of this reduction in hepatic SHBG production in the progression of nonalcoholic steatohepatitis.
Author Ramos‐Perez, Lorena
Briansó‐Llort, Laura
Fuertes‐Rioja, Lidia
Selva, David M.
Salcedo‐Allende, Maria Teresa
Simó, Rafael
Hernandez, Cristina
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  surname: Fuertes‐Rioja
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  surname: Ramos‐Perez
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  organization: Autonomous University of Barcelona
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  surname: Salcedo‐Allende
  fullname: Salcedo‐Allende, Maria Teresa
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  givenname: Cristina
  surname: Hernandez
  fullname: Hernandez, Cristina
  organization: Autonomous University of Barcelona
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  surname: Selva
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  email: david.martinez.selva@vhir.org
  organization: Autonomous University of Barcelona
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Snippet Low plasma sex hormone‐binding globulin (SHBG) levels are present in fatty liver disease, which represents a spectrum of diseases ranging from hepatocellular...
Abstract Low plasma sex hormone‐binding globulin (SHBG) levels are present in fatty liver disease, which represents a spectrum of diseases ranging from...
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SubjectTerms Animal models
Carbon tetrachloride
Cirrhosis
Fatty liver
Fibrosis
Gene silencing
Globulins
Growth factors
hepatic fibrosis
Hepatocyte nuclear factor 4
HNF‐4α isoforms
Human performance
In vivo methods and tests
Isoforms
Liver
Liver cirrhosis
Liver diseases
Molecular modelling
mRNA
Plasma levels
Reduction
Sex hormones
Smad3 protein
Stat3 protein
Steatosis
TGF‐β1
Transforming growth factor-b1
Transgenic animals
Transgenic mice
transgenic mice and HepG2 cells
Title Transforming growth factor‐beta 1: A new factor reducing hepatic SHBG production in liver fibrosis
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fjcp.30818
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