Heon-Woo Lee scite author profile

Background: Angiogenesis is a dynamic process that involves expansion of a pre-existing vascular network that can occur in a number of physiologic and pathologic settings. Despite its importance, the origin of the new angiogenic vasculature is poorly defined. In particular, the primary subtype of endothelial cells (capillary, venous, arterial) driving this process remains undefined. Methods: Endothelial cells were fate-mapped using genetic markers specific to arterial, capillary cells. In addition, we identified a novel venous endothelial marker gene ( Gm5127 ) used it to generate inducible venous endothelial-specific Cre and Dre driver mouse lines. Contributions of these various types of endothelial cells to angiogenesis were examined during normal postnatal development and in disease-specific setting. Results: Using a comprehensive set of endothelial subtype-specific inducible reporter mice, including tip-, arterial- and venous- endothelial reporter lines, we showed that venous endothelial cells are the primary endothelial subtype responsible for the expansion of an angiogenic vascular network. During physiologic angiogenesis, venous endothelial cells proliferate, migrating against the blood flow, and differentiating into tip, capillary and arterial endothelial cells of the new vasculature. Using intravital 2-photon imaging, we observed venous endothelial cells migrating against the blood flow to form new blood vessels. Venous endothelial cell migration also plays a key role in pathologic angiogenesis. This was observed both in formation of arterio-venous malformations in mice with inducible endothelial-specific Smad4 deletion mice and in pathologic vessel growth seen in oxygen-induced retinopathy. Conclusions: Our studies establish venous endothelial cells are primary endothelial subtype responsible for the normal expansion of vascular networks, formation of arterio-venous malformations and pathologic angiogenesis. These observations highlight the central role of the venous endothelium in normal development and disease pathogenesis.

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Standardized flavonoid-rich fraction of Artemisia princeps Pampanini cv. Sajabal induces apoptosis via mitochondrial pathway in human cervical cancer HeLa cells

Lee

Chung

et al. 2012

Journal of Ethnopharmacology

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Determination of zaltoprofen in human plasma by liquid chromatography with electrospray tandem mass spectrometry: application to a pharmacokinetic study

Lee

Seo

Kim

et al. 2006

Rapid Comm Mass Spectrometry

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In the present study, we developed a method coupling liquid-liquid extraction (LLE) to high-performance liquid chromatography (HPLC) with positive ion electrospray ionization tandem mass spectrometry (ESI-MS/MS) to determine zaltoprofen levels in human plasma, using enalapril as internal standard (IS). The high sensitivity and specificity of MS/MS detection enabled the use of small plasma volumes (250 microL) and a simple LLE procedure. Furthermore, the short run-times (2 min) involved are compatible with the requirements of large-scale clinical studies. Ion acquisition was performed in multiple reaction monitoring (MRM) mode by monitoring the transitions m/z 299.3 > 225.0 for zaltoprofen and m/z 377.4 > 234.2 for the IS enalapril. The limit of detection (LOD) was 0.01 microg/mL and the lower limit of quantitation (LLOQ) was 0.05 microg/mL. The devised method was linear over the studied range (0.05-20 microg/mL), with r2 > 0.99 and a run-time of 2 min. Intra-day precisions fell in the range 2.0-13.8%, inter-day precisions in the range 2.1-3.9%, and intra- and inter-day accuracies in the range 102.8-114.1%. The described method provides a fast and sensitive analytical tool for zaltoprofen and was successfully applied to a 24-subject pharmacokinetic study.

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An optimized analytical method of fluconazole in human plasma by high-performance liquid chromatography with ultraviolet detection and its application to a bioequivalence study

Kim¹,

Im²,

Kang³

et al. 2007

Journal of Chromatography B

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Endothelial Metabolic Control of Lymphangiogenesis

Lee

et al. 2018

BioEssays

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Lymphangiogenesis is an important developmental process that is critical to regulation of fluid homeostasis, immune surveillance and response as well as pathogenesis of a number of diseases, among them cancer, inflammation, and heart failure. Specification, formation, and maturation of lymphatic blood vessels involves an interplay between a series of events orchestrated by various transcription factors that determine expression of key genes involved in lymphangiogenesis. These are traditionally thought to be under control of several key growth factors including vascular growth factor-C (VEGF-C) and fibroblast growth factors (FGFs). Recent insights into VEGF and FGF signaling point to their role in control of endothelial metabolic processes such as glycolysis and fatty acid oxidation that, in turn, play a major role in regulation of lymphangiogenesis. These advances have significantly increased our understanding of lymphatic biology and opened new therapeutic vistas. Here we review our current understanding of metabolic controls in the lymphatic vasculature.

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Heon-Woo Lee

Role of Venous Endothelial Cells in Developmental and Pathologic Angiogenesis

Standardized flavonoid-rich fraction of Artemisia princeps Pampanini cv. Sajabal induces apoptosis via mitochondrial pathway in human cervical cancer HeLa cells

Determination of zaltoprofen in human plasma by liquid chromatography with electrospray tandem mass spectrometry: application to a pharmacokinetic study

An optimized analytical method of fluconazole in human plasma by high-performance liquid chromatography with ultraviolet detection and its application to a bioequivalence study

Endothelial Metabolic Control of Lymphangiogenesis

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