Project description:Hepatocyte CCAAT/enhancer-binding protein alpha restricts liver fibrosis by inhibiting secreted phosphoprotein 1 expression

Project description:Hepatocyte CCAAT/enhancer-binding protein alpha restricts liver fibrosis by inhibiting secreted phosphoprotein 1 expression (I)

Project description:Hepatocyte CCAAT/enhancer-binding protein alpha restricts liver fibrosis by inhibiting secreted phosphoprotein 1 expression (II)

Project description:Nonalcoholic fatty liver disease (NAFLD) is the most common chronic liver disease. Persistent NAFLD can progress to nonalcoholic steatohepatitis (NASH) with inflammation and fibrosis, which predisposes patients to cirrhosis and hepatocellular carcinoma. CCAAT/enhancer-binding protein alpha (CEBPA) is a transcription factor that modulates glycolipid homeostasis, cell differentiation and tumor progression. MTL-CEBPA, a first-in-human small activating RNA therapeutic, has been used to overexpress CEBPA and treat hepatocellular carcinoma by targeting myeloid cells in clinical trials. However, whether and how hepatocyte-specific CEBPA modulates NASH are unknown. Here we found that CEBPA expression was inhibited in the livers of high-fat, high-cholesterol, and high-fructose diet (HFCFD)-fed mice, NASH patients and palmitic/oleic acid-treated primary hepatocytes. Liver-specific Cebpa knockout mice (Cebpa-dLiv) and liver-specific tamoxifen-inducible ERT2-Cre mice (Cebpa-dLiv-ERT2) were then generated. Both Cebpa-dLiv and Cebpa-dLiv-ERT2 mice (treated with tamoxifen) developed enhanced NASH and fibrosis compared to control mice. Global transcriptome analyses demonstrated hepatic secreted phosphoprotein 1 (Spp1) encoding the fibrosis-promoting factor SPP1, was markedly induced by hepatocyte CEBPA knockout in HFCFD-fed mice. Consistently, hepatic SPP1 was upregulated by NASH and negatively correlated with CEBPA expression in humans. Hepatocyte loss of CEBPA enhanced hepatic SPP1 expression and serum SPP1 levels both at the early and late stage of NASH in mice. CEBPA-knockout primary hepatocytes released more SPP1 to the culture medium than wild-type mouse hepatocytes, resulting in enhanced fibrogenesis of hepatic stellate cells, a phenotype that was rescued by the Spp1 shRNA. Hepatocyte-directed AAV8-deliverey of Spp1 shRNA rescued the fibrosis in HFCFD-fed Cebpa-dLiv mice. Mechanistically, CEBPA overexpression reduced, while CEBPA knockout enhanced, SPP1 expression in primary hepatocytes in vitro. The Spp1 promoter had functional CEBPA response elements, while CEBPA modulated histone acetylation to restrict SPP1 expression in a novel feedback loop. Furthermore, overexpression of CEBPA in hepatocytes with AAV8-TBG-CEBPA, inhibited hepatic SPP1 expression and reduced fibrosis in HFCFD-fed wild-type mice. This study demonstrates a novel hepatocyte CEBPA-SPP1 axis involved in modulating NASH fibrosis that supports hepatocyte CEBPA as an anti-NASH target.

Project description:Nonalcoholic fatty liver disease (NAFLD) is the most common chronic liver disease. Persistent NAFLD can progress to nonalcoholic steatohepatitis (NASH) with inflammation and fibrosis, which predisposes patients to cirrhosis and hepatocellular carcinoma. CCAAT/enhancer-binding protein alpha (CEBPA) is a transcription factor that modulates glycolipid homeostasis, cell differentiation and tumor progression. MTL-CEBPA, a first-in-human small activating RNA therapeutic, has been used to overexpress CEBPA and treat hepatocellular carcinoma by targeting myeloid cells in clinical trials. However, whether and how hepatocyte-specific CEBPA modulates NASH are unknown. Here we found that CEBPA expression was inhibited in the livers of high-fat, high-cholesterol, and high-fructose diet (HFCFD)-fed mice, NASH patients and palmitic/oleic acid-treated primary hepatocytes. Liver-specific Cebpa knockout mice (Cebpa-dLiv) and liver-specific tamoxifen-inducible ERT2-Cre mice (Cebpa-dLiv-ERT2) were then generated. Both Cebpa-dLiv and Cebpa-dLiv-ERT2 mice (treated with tamoxifen) developed enhanced NASH and fibrosis compared to control mice. Global transcriptome analyses demonstrated hepatic secreted phosphoprotein 1 (Spp1) encoding the fibrosis-promoting factor SPP1, was markedly induced by hepatocyte CEBPA knockout in HFCFD-fed mice. Consistently, hepatic SPP1 was upregulated by NASH and negatively correlated with CEBPA expression in humans. Hepatocyte loss of CEBPA enhanced hepatic SPP1 expression and serum SPP1 levels both at the early and late stage of NASH in mice. CEBPA-knockout primary hepatocytes released more SPP1 to the culture medium than wild-type mouse hepatocytes, resulting in enhanced fibrogenesis of hepatic stellate cells, a phenotype that was rescued by the Spp1 shRNA. Hepatocyte-directed AAV8-deliverey of Spp1 shRNA rescued the fibrosis in HFCFD-fed Cebpa-dLiv mice. Mechanistically, CEBPA overexpression reduced, while CEBPA knockout enhanced, SPP1 expression in primary hepatocytes in vitro. The Spp1 promoter had functional CEBPA response elements, while CEBPA modulated histone acetylation to restrict SPP1 expression in a novel feedback loop. Furthermore, overexpression of CEBPA in hepatocytes with AAV8-TBG-CEBPA, inhibited hepatic SPP1 expression and reduced fibrosis in HFCFD-fed wild-type mice. This study demonstrates a novel hepatocyte CEBPA-SPP1 axis involved in modulating NASH fibrosis that supports hepatocyte CEBPA as an anti-NASH target.

Project description:Nonalcoholic fatty liver disease (NAFLD) is the most common chronic liver disease. Persistent NAFLD can progress to nonalcoholic steatohepatitis (NASH) with inflammation and fibrosis, which predisposes patients to cirrhosis and hepatocellular carcinoma. CCAAT/enhancer-binding protein alpha (CEBPA) is a transcription factor that modulates glycolipid homeostasis, cell differentiation and tumor progression. MTL-CEBPA, a first-in-human small activating RNA therapeutic, has been used to overexpress CEBPA and treat hepatocellular carcinoma by targeting myeloid cells in clinical trials. However, whether and how hepatocyte-specific CEBPA modulates NASH are unknown. Here we found that CEBPA expression was inhibited in the livers of high-fat, high-cholesterol, and high-fructose diet (HFCFD)-fed mice, NASH patients and palmitic/oleic acid-treated primary hepatocytes. Liver-specific Cebpa knockout mice (Cebpa-dLiv) and liver-specific tamoxifen-inducible ERT2-Cre mice (Cebpa-dLiv-ERT2) were then generated. Both Cebpa-dLiv and Cebpa-dLiv-ERT2 mice (treated with tamoxifen) developed enhanced NASH and fibrosis compared to control mice. Global transcriptome analyses demonstrated hepatic secreted phosphoprotein 1 (Spp1) encoding the fibrosis-promoting factor SPP1, was markedly induced by hepatocyte CEBPA knockout in HFCFD-fed mice. Consistently, hepatic SPP1 was upregulated by NASH and negatively correlated with CEBPA expression in humans. Hepatocyte loss of CEBPA enhanced hepatic SPP1 expression and serum SPP1 levels both at the early and late stage of NASH in mice. CEBPA-knockout primary hepatocytes released more SPP1 to the culture medium than wild-type mouse hepatocytes, resulting in enhanced fibrogenesis of hepatic stellate cells, a phenotype that was rescued by the Spp1 shRNA. Hepatocyte-directed AAV8-deliverey of Spp1 shRNA rescued the fibrosis in HFCFD-fed Cebpa-dLiv mice. Mechanistically, CEBPA overexpression reduced, while CEBPA knockout enhanced, SPP1 expression in primary hepatocytes in vitro. The Spp1 promoter had functional CEBPA response elements, while CEBPA modulated histone acetylation to restrict SPP1 expression in a novel feedback loop. Furthermore, overexpression of CEBPA in hepatocytes with AAV8-TBG-CEBPA, inhibited hepatic SPP1 expression and reduced fibrosis in HFCFD-fed wild-type mice. This study demonstrates a novel hepatocyte CEBPA-SPP1 axis involved in modulating NASH fibrosis that supports hepatocyte CEBPA as an anti-NASH target.

Project description:This SuperSeries is composed of the SubSeries listed below.

Project description:Secreted phosphoprotein 1 expression in retinal mononuclear phagocytes links murine to human choroidal neovascularization

Project description:Metabolic dysfunction-associated steatohepatitis (MASH) - previously described as nonalcoholic steatohepatitis (NASH) - is a major driver of liver fibrosis in humans, while liver fibrosis is a key determinant of all-cause mortality in liver disease independent of MASH occurrence. CCAAT/enhancer binding protein α (CEBPA), as a versatile ligand-independent transcriptional factor, has an important function in myeloid cells, and is under clinical evaluation for cancer therapy. CEBPA is also expressed in hepatocytes and regulates glucolipid homeostasis; however, the role of hepatocyte-specific CEBPA in modulating liver fibrosis progression is largely unknown. Here, hepatic CEBPA expression was found to be decreased during MASH progression both in humans and mice, and hepatic CEBPA mRNA was negatively correlated with MASH fibrosis in the human liver. CebpaΔHep mice had markedly enhanced liver fibrosis induced by a high-fat, high-cholesterol, high-fructose diet or carbon tetrachloride. Temporal and spatial hepatocyte-specific CEBPA loss at the progressive stage of MASH in CebpaΔHep,ERT2 mice functionally promoted liver fibrosis. Mechanistically, hepatocyte CEBPA directly repressed Spp1 transactivation to reduce the secretion of osteopontin, a fibrogenesis inducer of hepatic stellate cells. Forced hepatocyte-specific CEBPA expression reduced MASH-associated liver fibrosis. These results demonstrate an important role for hepatocyte-specific CEBPA in liver fibrosis progression, and may help guide the therapeutic discoveries targeting hepatocyte CEBPA for the treatment of liver fibrosis.

Project description:Neovascular age-related macular degeneration represents the most common cause of blindness in the western world. Alterations of the outer Blood-retina barrier integrity and a localized inflammatory microenvironment lead to sprouting of choroidal neovascularization in intimate contact with surrounding myeloid cells and ultimately lead to visual impairment. The discovery of novel targets interfering with angiogenesis and inflammation is vital for the future treatments in AMD patients. To identify novel potential targets in the local phagocytes of the retina, microglia, we performed a comprehensive RNA-seq analysis in the mouse model of laser-induced choroidal neovascularization (mCNV). Here, we identified the angiogenic factor Osteopontin (Opn), also known as "secreted phosphoprotein 1” (Spp1), to be one of the most highly expressed genes in retinal microglia in the course of CNV formation. We could confirm the presence of SPP1 at the lesion site in recruited retinal microglia of Cx3cr1CreER:Rosa26-Tomato reporter mice using immunohistochemistry and in whole retinal tissue lysates by ELISA compared to controls highlighting a massive local production of SPP1. Inhibition of SPP1 by intravitreal injection of anti-SPP1 antibody significantly increased the lesion size compared to IgG-treated control eyes. In line with the results in rodents, we found an increased SPP1 mRNA expression in surgically extracted human choroidal neovascular (hCNV) membranes by the quantitative RNA-seq approach of massive analysis of cDNA ends (MACE) and found numerous IBA1+SPP1+ myeloid cells in human CNV membranes. Taken together, these results highlight the importance of SPP1 in the formation of CNV and potentially offer new opportunities for therapeutic intervention by inhibiting the SPP1 pathway.