Victor Olsavszky scite author profile

Key Points• Angiocrine Bmp2 signaling in the liver controls tissue and serum iron concentrations via regulation of hepcidin expression in hepatocytes.• Liver-specific angiocrine signaling is essential for the metabolic homeostasis of the whole organism.Microvascular endothelial cells (ECs) display a high degree of phenotypic and functional heterogeneity among different organs. Organ-specific ECs control their tissue microenvironment by angiocrine factors in health and disease. Liver sinusoidal endothelial cells (LSECs) are uniquely differentiated to fulfill important organ-specific functions in development, under homeostatic conditions, and in regeneration and liver pathology. Recently, Bmp2 has been identified by us as an organ-specific angiokine derived from LSECs. To study angiocrine Bmp2 signaling in the liver, we conditionally deleted Bmp2 in LSECs using EC subtype-specific Stab2-Cre mice. Genetic inactivation of hepatic angiocrine Bmp2 signaling in Stab2-Cre;Bmp2 fl/fl (Bmp2 LSECKO ) mice caused massive iron overload in the liver and increased serum iron levels and iron deposition in several organs similar to classic hereditary hemochromatosis. Iron overload was mediated by decreased hepatic expression of hepcidin, a key regulator of iron homeostasis. Thus, angiocrine Bmp2 signaling within the hepatic vascular niche represents a constitutive pathway indispensable for iron homeostasis in vivo that is nonredundant with Bmp6. Notably, we demonstrate that organ-specific angiocrine signaling is essential not only for the homeostasis of the respective organ but also for the homeostasis of the whole organism. (Blood. 2017;129(4):415-419)

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Angiocrine Wnt signaling controls liver growth and metabolic maturation in mice

Leibing

Géraud

Augustin

et al. 2018

Hepatology

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Postnatal liver development is characterized by hepatocyte growth, proliferation, and functional maturation. Notably, canonical Wnt signaling in hepatocytes has been identified as an important regulator of final adult liver size and metabolic liver zonation. The cellular origin of Wnt ligands responsible for homeostatic liver/body weight ratio (LW/BW) remained unclear, which was also attributable to a lack of suitable endothelial Cre driver mice. To comprehensively analyze the effects of hepatic angiocrine Wnt signaling on liver development and metabolic functions, we used endothelial subtype‐specific Stab2‐Cre driver mice to delete Wls from hepatic endothelial cells (HECs). The resultant Stab2‐Cretg/wt;Wlsfl/fl (Wls‐HECKO) mice were viable, but showed a significantly reduced LW/BW. Specifically, ablation of angiocrine Wnt signaling impaired metabolic zonation in the liver, as shown by loss of pericentral, β‐catenin‐dependent target genes such as glutamine synthase (Glul), RhBg, Axin2, and cytochrome P450 2E1, as well as by extended expression of periportal genes such as arginase 1. Furthermore, endothelial subtype‐specific expression of a c‐terminally YFP‐tagged Wls fusion protein in Wls‐HECKO mice (Stab2‐Cretg/wt;Wlsfl/fl;Rosa26:Wls‐YFPfl/wt [Wls‐rescue]) restored metabolic liver zonation. Interestingly, lipid metabolism was altered in Wls‐HECKO mice exhibiting significantly reduced plasma cholesterol levels, while maintaining normal plasma triglyceride and blood glucose concentrations. On the contrary, zonal expression of Endomucin, LYVE1, and other markers of HEC heterogeneity were not altered in Wls‐HECKO livers. Conclusion: Angiocrine Wnt signaling controls liver growth as well as development of metabolic liver zonation in mice, whereas intrahepatic HEC zonation is not affected. (Hepatology 2017).

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Victor Olsavszky

GATA4-dependent organ-specific endothelial differentiation controls liver development and embryonic hematopoiesis

Angiocrine Bmp2 signaling in murine liver controls normal iron homeostasis

Angiocrine Wnt signaling controls liver growth and metabolic maturation in mice

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