Literature DB >> 22581286

ApoB-containing lipoproteins regulate angiogenesis by modulating expression of VEGF receptor 1.

Inbal Avraham-Davidi1, Yona Ely, Van N Pham, Daniel Castranova, Moshe Grunspan, Guy Malkinson, Liron Gibbs-Bar, Oded Mayseless, Gabriella Allmog, Brigid Lo, Carmen M Warren, Tom T Chen, Josette Ungos, Kameha Kidd, Kenna Shaw, Ilana Rogachev, Wuzhou Wan, Philip M Murphy, Steven A Farber, Liran Carmel, Gregory S Shelness, M Luisa Iruela-Arispe, Brant M Weinstein, Karina Yaniv.   

Abstract

Despite the clear major contribution of hyperlipidemia to the prevalence of cardiovascular disease in the developed world, the direct effects of lipoproteins on endothelial cells have remained obscure and are under debate. Here we report a previously uncharacterized mechanism of vessel growth modulation by lipoprotein availability. Using a genetic screen for vascular defects in zebrafish, we initially identified a mutation, stalactite (stl), in the gene encoding microsomal triglyceride transfer protein (mtp), which is involved in the biosynthesis of apolipoprotein B (ApoB)-containing lipoproteins. By manipulating lipoprotein concentrations in zebrafish, we found that ApoB negatively regulates angiogenesis and that it is the ApoB protein particle, rather than lipid moieties within ApoB-containing lipoproteins, that is primarily responsible for this effect. Mechanistically, we identified downregulation of vascular endothelial growth factor receptor 1 (VEGFR1), which acts as a decoy receptor for VEGF, as a key mediator of the endothelial response to lipoproteins, and we observed VEGFR1 downregulation in hyperlipidemic mice. These findings may open new avenues for the treatment of lipoprotein-related vascular disorders.

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Year:  2012        PMID: 22581286      PMCID: PMC3959651          DOI: 10.1038/nm.2759

Source DB:  PubMed          Journal:  Nat Med        ISSN: 1078-8956            Impact factor:   53.440


  53 in total

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Authors:  N Berriot-Varoqueaux; L P Aggerbeck; M Samson-Bouma; J R Wetterau
Journal:  Annu Rev Nutr       Date:  2000       Impact factor: 11.848

2.  Genetic analysis of digestive physiology using fluorescent phospholipid reporters.

Authors:  S A Farber; M Pack; S Y Ho; I D Johnson; D S Wagner; R Dosch; M C Mullins; H S Hendrickson; E K Hendrickson; M E Halpern
Journal:  Science       Date:  2001-05-18       Impact factor: 47.728

3.  In vivo imaging of embryonic vascular development using transgenic zebrafish.

Authors:  Nathan D Lawson; Brant M Weinstein
Journal:  Dev Biol       Date:  2002-08-15       Impact factor: 3.582

4.  Microsomal triglyceride transfer protein expression during mouse development.

Authors:  J M Shelton; M H Lee; J A Richardson; S B Patel
Journal:  J Lipid Res       Date:  2000-04       Impact factor: 5.922

5.  The vascular anatomy of the developing zebrafish: an atlas of embryonic and early larval development.

Authors:  S Isogai; M Horiguchi; B M Weinstein
Journal:  Dev Biol       Date:  2001-02-15       Impact factor: 3.582

Review 6.  Mouse models of hyperlipidemia and atherosclerosis.

Authors:  S Fazio; M F Linton
Journal:  Front Biosci       Date:  2001-03-01

Review 7.  Endothelial dysfunction in hypercholesterolemia: mechanisms, pathophysiological importance, and therapeutic interventions.

Authors:  U Landmesser; B Hornig; H Drexler
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9.  Analysis of a zebrafish VEGF receptor mutant reveals specific disruption of angiogenesis.

Authors:  Hinrich Habeck; Jörg Odenthal; Brigitte Walderich; Hans Maischein; Stefan Schulte-Merker
Journal:  Curr Biol       Date:  2002-08-20       Impact factor: 10.834

10.  Disruption of acvrl1 increases endothelial cell number in zebrafish cranial vessels.

Authors:  Beth L Roman; Van N Pham; Nathan D Lawson; Magdalena Kulik; Sarah Childs; Arne C Lekven; Deborah M Garrity; Randall T Moon; Mark C Fishman; Robert J Lechleider; Brant M Weinstein
Journal:  Development       Date:  2002-06       Impact factor: 6.868
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  41 in total

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Authors:  Michela Goi; Sarah J Childs
Journal:  Dev Biol       Date:  2015-10-22       Impact factor: 3.582

2.  A wake-up call for hibernating tumour cells.

Authors:  Sara M Weis; David A Cheresh
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3.  Lymphatic vessels arise from specialized angioblasts within a venous niche.

Authors:  J Nicenboim; G Malkinson; T Lupo; L Asaf; Y Sela; O Mayseless; L Gibbs-Bar; N Senderovich; T Hashimshony; M Shin; A Jerafi-Vider; I Avraham-Davidi; V Krupalnik; R Hofi; G Almog; J W Astin; O Golani; S Ben-Dor; P S Crosier; W Herzog; N D Lawson; J H Hanna; I Yanai; K Yaniv
Journal:  Nature       Date:  2015-06-04       Impact factor: 49.962

4.  Studying lipoprotein trafficking in zebrafish, the case of chylomicron retention disease.

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Journal:  J Mol Med (Berl)       Date:  2015-02       Impact factor: 4.599

Review 5.  Metabolism of stromal and immune cells in health and disease.

Authors:  Bart Ghesquière; Brian W Wong; Anna Kuchnio; Peter Carmeliet
Journal:  Nature       Date:  2014-07-10       Impact factor: 49.962

Review 6.  Zebrafish models of dyslipidemia: relevance to atherosclerosis and angiogenesis.

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Journal:  Transl Res       Date:  2013-10-02       Impact factor: 7.012

7.  Antagonistic function of the RNA-binding protein HuR and miR-200b in post-transcriptional regulation of vascular endothelial growth factor-A expression and angiogenesis.

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Journal:  J Biol Chem       Date:  2012-12-06       Impact factor: 5.157

8.  Regulation of Lysophosphatidic Acid Metabolism and Signaling by Lipoproteins.

Authors:  Andrew J Morris; Susan S Smyth
Journal:  Arterioscler Thromb Vasc Biol       Date:  2016-10       Impact factor: 8.311

9.  Using fluorescent lipids in live zebrafish larvae: From imaging whole animal physiology to subcellular lipid trafficking.

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Journal:  Methods Cell Biol       Date:  2016-05-09       Impact factor: 1.441

10.  Vegfa signaling promotes zebrafish intestinal vasculature development through endothelial cell migration from the posterior cardinal vein.

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