VEGF is crucial for the hepatic vascular development required for lipoprotein uptake

doi:10.1242/dev.01902

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Development ePress online publication date 8 Jun 2005
doi: 10.1242/dev.01902

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Research article: Development and disease

VEGF is crucial for the hepatic vascular development required for lipoprotein uptake

Brian Carpenter, Yuankai Lin, Stephanie Stoll, Robert L. Raffai, Robert McCuskey, and Rong Wang^*
^* Author for correspondence (e-mail: rongw{at}itsa.ucsf.edu)

Hepatic lipid catabolism begins with the transport of lipoproteinremnants from the sinusoidal vasculature into hepatocytes byendocytosis via microvilli. To test the hypothesis that fenestratedsinusoidal endothelial cells (SECs) are crucial for this process,we selectively disrupted SECs by downregulating vascular endothelialgrowth factor (VEGF) signaling, using hepatocyte-specific, tetracycline-regulatableexpression of a VEGF receptor that can sequester VEGF but cannotrelay its signal. Newborn mutant livers appeared grossly normal,but displayed a dark-red color that was distinguishable fromnormal physiological lipid-rich pink livers. Mutant sinusoidalnetworks were reduced and their SECs lacked fenestrae. Hepatocellularlipid levels were profoundly reduced, as determined by Oil RedO staining and transmission electron microscopy, and fewer hepatocyticmicrovilli were evident, indicating impaired lipoprotein endocytosis.Levels of apolipoprotein (APO) E bound to mutant sinusoidalnetworks were significantly reduced, and fluorescently-labeledmurine remnant lipoproteins injected into the blood stream failedto accumulate in the space of Disse and diffuse into hepatocytes,providing evidence that reduced hepatocellular lipid levelsin mutant livers are due to impaired lipoprotein uptake. Temporaldownregulation of VEGF signaling revealed that it is crucialat all developmental stages of hepatic vascular morphogenesis,and repression of the dominant-negative effect can rescue thephenotype. These findings provide the first genetic evidencethat VEGF dynamically regulates SEC fenestration during liverorganogenesis, a process that is required for lipoprotein uptakeby the liver.

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