Ming‐Hua Zheng scite author profile

The signaling molecules that elicit embryonic induction of the liver from the mammalian gut endoderm or induction of other gut-derived organs are unknown. Close proximity of cardiac mesoderm, which expresses fibroblast growth factors (FGFs) 1, 2, and 8, causes the foregut endoderm to develop into the liver. Treatment of isolated foregut endoderm from mouse embryos with FGF1 or FGF2, but not FGF8, was sufficient to replace cardiac mesoderm as an inducer of the liver gene expression program, the latter being the first step of hepatogenesis. The hepatogenic response was restricted to endoderm tissue, which selectively coexpresses FGF receptors 1 and 4. Further studies with FGFs and their specific inhibitors showed that FGF8 contributes to the morphogenetic outgrowth of the hepatic endoderm. Thus, different FGF signals appear to initiate distinct phases of liver development during mammalian organogenesis.

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Hepatic specification of the gut endoderm in vitro: cell signaling and transcriptional control.

Gualdi

Bossard²,

Zheng³

et al. 1996

Genes Dev.

540

502

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We have studied the initial development of pluiipotent gut endoderm to hepatocytes using a tissue explant system from mouse embryos. We not only find cellular interactions that specify hepatic differentiation but also those that block hepatogenesis in regions of the endoderm that normally give rise to other tissues. The results implicate both positive and negative signaling in early hepatic specification. In vivo footprinting of the albumin enhancer in precursor gut endoderm shows that the transcriptionally silent but potentially active chromatin is characterized by occupancy of an HNF-3 site. Upon hepatic specification, a host of other factors bind nearby sites as the gene becomes active. Genes in pluripotent cells therefore may be marked for potential expression by entry points in chromatin, where additional factors bind during cell type specification. The findings also provide insight into the evolutionary origin of different endodermal cell types.

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COVID-19 and Liver Dysfunction: Current Insights and Emergent Therapeutic Strategies

Feng¹,

Zheng²,

Yan³

et al. 2020

369

380

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The outbreak of coronavirus disease 2019 , caused by the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), has attracted increasing worldwide attention. Cases of liver damage or dysfunction (mainly characterized by moderately elevated serum aspartate aminotransferase levels) have been reported among patients with COVID-19. However, it is currently uncertain whether the COVID-19related liver damage/dysfunction is due mainly to the viral infection per se or other coexisting conditions, such as the use of potentially hepatotoxic drugs and the coexistence of systemic inflammatory response, respiratory distress syndromeinduced hypoxia, and multiple organ dysfunction. Based on the current evidence from case reports and case series, this

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Fatty Liver Disease Caused by High-Alcohol-Producing Klebsiella pneumoniae

Yuan¹,

et al. 2019

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Ming‐Hua Zheng

Initiation of Mammalian Liver Development from Endoderm by Fibroblast Growth Factors

Hepatic specification of the gut endoderm in vitro: cell signaling and transcriptional control.

COVID-19 and Liver Dysfunction: Current Insights and Emergent Therapeutic Strategies

Fatty Liver Disease Caused by High-Alcohol-Producing Klebsiella pneumoniae

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