A protocol for isolation and culture of human umbilical vein endothelial cells
TL;DR: A protocol for easy isolation and culture of human umbilical vein endothelial cells (HUVECs) is described to supply every researcher with a method that can be applied in cell biology laboratories with minimum equipment.
Abstract: We describe a protocol for easy isolation and culture of human umbilical vein endothelial cells (HUVECs) to supply every researcher with a method that can be applied in cell biology laboratories with minimum equipment. Endothelial cells (ECs) are isolated from umbilical vein vascular wall by a collagenase treatment, then seeded on fibronectin-coated plates and cultured in a medium with Earles' salts and fetal calf serum (FCS), but without growth factor supplementation, for 7 days in a 37 degrees C-5% CO2 incubator. Cell confluency can be monitored by phase-contrast microscopy; ECs can be characterized using cell surface or intracellular markers and checked for contamination. Various protocols can be applied to HUVECs, from simple harvesting to a particular solubilization of proteins for proteomic analysis.
Citations
More filters
TL;DR: It is shown that primary human M1 macrophages secrete the highest levels of potent angiogenic stimulators including VEGF, a chemoattractant for stabilizing pericytes and also promote anastomosis of sprouting endothelial cells in vitro.
690 citations
TL;DR: It is indicated that adMSC-Exo can transfer miR-125a to endothelial cells and promote angiogenesis by repressing DLL4 and repressed the expression of the angiogenic inhibitor delta-like 4 by targeting its 3′ untranslated region.
Abstract: Angiogenesis plays crucial roles in various physiological processes including wound healing and tissue repair. It requires a tight interaction between endothelial cells and their surrounding environment. Mesenchymal stem cells (MSCs), one of the non-endothelial cell types present in the perivascular environment, have been shown to secret exosomes to modulate intercellular communications between MSCs and their target cells. In this study, we initially isolated exosomes secreted by human adipose-derived MSCs (adMSC-Exo) and examined their roles in angiogenesis. We found that adMSC-Exo could be taken up by endothelial cells and significantly promote angiogenesis in vitro and in vivo Further study showed that miR-125a was enriched in adMSC-Exo, and repressed the expression of the angiogenic inhibitor delta-like 4 (DLL4) by targeting its 3' untranslated region. Additionally, adMSC-Exo and its exosomal transferred miR-125a could repress DLL4 expression and modulate endothelial cell angiogenesis through promoting formation of endothelial tip cells. In conclusion, our study indicates that adMSC-Exo can transfer miR-125a to endothelial cells and promote angiogenesis by repressing DLL4. adMSC-Exo, as a pro-angiogenic factor, might be a promising candidate for therapeutical tissue repair.
391 citations
Cites methods from "A protocol for isolation and cultur..."
...HUVECs were prepared and cultured as routinely described (Baudin et al., 2007)....
[...]
TL;DR: Accumulating evidence demonstrates that WJ-derived stem cells possess many potential advantages as transplantable cells for treatment of various diseases (e.g., cancer, chronic liver disease, cardiovascular diseases, nerve, cartilage and tendon injury).
Abstract: Wharton’s jelly (WJ) is a gelatinous tissue within the umbilical cord that contains myofibroblast-like stromal cells. A unique cell population of WJ that has been suggested as displaying the stemness phenotype is the mesenchymal stromal cells (MSCs). Because MSCs’ stemness and immune properties appear to be more robustly expressed and functional which are more comparable with fetal than adult-derived MSCs, MSCs harvested from the “young” WJ are considered much more proliferative, immunosuppressive, and even therapeutically active stem cells than those isolated from older, adult tissue sources such as the bone marrow or adipose. The present review discusses the phenotypic characteristics, therapeutic applications, and optimization of experimental protocols for WJ-derived stem cells. MSCs derived from WJ display promising transplantable features, including ease of sourcing, in vitro expandability, differentiation abilities, immune-evasion and immune-regulation capacities. Accumulating evidence demonstrates that WJ-derived stem cells possess many potential advantages as transplantable cells for treatment of various diseases (e.g., cancer, chronic liver disease, cardiovascular diseases, nerve, cartilage and tendon injury). Additional studies are warranted to translate the use of WJ-derived stem cells for clinical applications.
271 citations
Cites background from "A protocol for isolation and cultur..."
...Previously, WJ-MSCs were termed as “umbilical cord matrix stem cells (UCMSCs)” to distinguish them from endothelial cells isolated from umbilical vein (HUVEC) as well as MSCs isolated from UC blood (UCB-MSCs) [13,14]....
[...]
TL;DR: It has been suggested that HUVECs could be considered as a relatively reliable and simple in vitro model for ECs to predict and evaluate the toxicity of NPs to endothelium.
Abstract: With the rapid development of nanotechnologies, nanoparticles (NPs) are increasingly produced and used in many commercial products, which could lead to the contact of human blood vessels with NPs. Thus, it is necessary to understand the adverse effects of NPs to relevant cells lining human blood vessels, especially endothelial cells (ECs) that cover the lumen of blood vessels. Human umbilical vein endothelial cells (HUVECs) are among one of the most popular models used for ECs in vitro. In the present review, we discussed studies that have used HUVECs as a model to investigate the EC-NP interactions, the toxic effects of NPs on ECs and the mechanisms. The results of these studies indicated that NPs could be internalized into HUVECs by the endocytosis pathway as well as transported across HUVECs by exocytosis and paracellular pathways. Exposure of HUVECs to NPs could induce cytotoxicity, genotoxicity, eNOS uncoupling and endothelial activation, which could be explained by NP-induced oxidative stress, inflammatory response and dysfunction of organelles. In addition, some studies have also evaluated the influences of microenvironment (e.g. the presence of proteins and excessive nutrients), the physiological and/or pathological stimuli related to the diversity of ECs (e.g. shear stress, cyclic stretch and inflammatory stimuli), and the physicochemical properties of NPs on the responses of ECs to NP exposure. In conclusion, it has been suggested that HUVECs could be considered as a relatively reliable and simple in vitro model for ECs to predict and evaluate the toxicity of NPs to endothelium. Copyright © 2017 John Wiley & Sons, Ltd.
207 citations
Cites background from "A protocol for isolation and cultur..."
...HUVECs could be isolated and maintained by standard protocol with a relatively minimal requirement (Marin et al., 2001; Baudin et al., 2007) or purchased from commercial resources....
[...]
TL;DR: It is demonstrated that electropolymerization of dopamine is a facile and versatile approach to surface tailoring of metallic cardiovascular stents, such as small and complex-shaped coronary stent, and may find applications in the area of metallic surface engineering.
159 citations
Cites methods from "A protocol for isolation and cultur..."
...With local ethical committee approvals, primary human umbilical vein endothelial cells were isolated from newborn umbilical cords with collagenase (type I, GIBCO) as described previously [27,28]....
[...]
References
More filters
TL;DR: It is demonstrated that it is possible to culture morphologically and immunologically identifiable human endothelial cells for periods up to 5 mo and ABH antigens appropriate to the tissue donor's blood type were not detectable on cultured smooth muscle cells or fibroblasts.
Abstract: Endothelial cells were isolated from freshly obtained human umbilical cords by collagenase digestion of the interior of the umbilical vein. The cells were grown in tissue culture as a homogeneous population for periods up to 5 mo and some lines were subcultured for 10 serial passages. During the logarithmic phase of cell growth, cell-doubling time was 92 h. Light, phase contrast, and scanning electron microscopy demonstrated that cultured human endothelial cells grew as monolayers of closely opposed, polygonal large cells whereas both cultured human fibroblasts and human smooth muscle cells grew as overlapping layers of parallel arrays of slender, spindle-shaped cells. By transmission electron microscopy, cultured endothelial cells were seen to contain cytoplasmic inclusions (Weibel-Palade bodies) characteristic of in situ endothelial cells. These inclusions were also found in endothelial cells lining umbilical veins but were not seen in smooth muscle cells or fibroblasts in culture or in situ. Cultured endothelial cells contained abundant quantities of smooth muscle actomyosin. Cultured endothelial cells also contained ABH antigens appropriate to the tissue donor's blood type; these antigens were not detectable on cultured smooth muscle cells or fibroblasts. These studies demonstrate that it is possible to culture morphologically and immunologically identifiable human endothelial cells for periods up to 5 mo.
6,874 citations
TL;DR: The vascular endothelium, which envelops the circulating blood in a continuous monolayer, is mainly responsible for this function, but over the past 20 years numerous other important functions have been discovered.
Abstract: William harvey, when studying the circulation of the blood, must have recognized that "In sound and living vessels the blood remains fluid, but it coagulates in dead ones" (Ernst Brucke, 1857). Joseph Lister (1909) provided further evidence for an active role of blood vessels in maintaining the liquidity of blood. The vascular endothelium, which envelops the circulating blood in a continuous monolayer, is mainly responsible for this function. Over the past 20 years numerous other important functions have been discovered. For instance, the outer surface of the endothelial cell contains angiotensin-converting enzyme, which catalyzes the formation of the vasoconstrictor angiotensin . . .
1,969 citations
TL;DR: The present work critically reviews the existing data that supports a role of endothelial cell apoptosis for vascular growth and remodeling and provides insights into the mechanisms and the potential therapeutic consequences.
Abstract: The programmed form of cell death (apoptosis) is essential for normal development of multicellular organisms. In the past few years, compelling evidence accumulated that dysregulation of apoptosis can lead to embryonal death and is involved in the pathophysiology of various inflammatory and degenerative diseases. Specifically, the occurrence of endothelial cell apoptosis has deleterious effects on the development of the cardiovascular system leading to embryonal death. Moreover, endothelial cell apoptosis counteracts neovascularization in the adult organism. On the basis of these findings, one may consider the regulation of endothelial cell apoptosis as a potential therapeutic target. The induction of endothelial cell apoptosis may limit unwanted neovascularization of tumors. In contrast, the prevention of endothelial cell apoptosis may improve angiogenesis and vasculogenesis in patients with ischemia. The present work critically reviews the existing data that supports a role of endothelial cell apoptosis for vascular growth and remodeling and provides insights into the mechanisms and the potential therapeutic consequences.
393 citations
TL;DR: It is shown that the HRS/J polytropic viruses are env gene recombinants with unique oligonucleotide and peptide maps, and appear to arise by recombination between ecotropic virus and an unidentified genome related, but not identical to, the endogenous xenotropic viruses.
Abstract: HRS/J inbred mice carry a mutant autosomal recessive gene (hr), which in homozygotes coincides with susceptibility to spontaneous thymic leukemia. Unlike their heterozygote (hr/+) littermates, hr/hr homozygotes express high levels of xenotropic virus during the preleukemic period, and viruses with a broadened host range (termed polytropic viruses) can be isolated from their preleukemic and leukemic tissues. Because hr/hr and hr/+ mice are otherwise genetically identical, the virological differences between them support the role of polytropic viruses in the generation of thymic leukemia. In the present report we show that the HRS/J polytropic viruses are env gene recombinants with unique oligonucleotide and peptide maps. These polytropic viruses appear to arise by recombination between ecotropic virus and an unidentified genome related, but not identical to, the endogenous xenotropic viruses. Moreover, polytropic viruses not only accelerate leukemogenesis in HRS/J mice, but also induce thymic leukemia in the low leukemia strain CBA/J. By contrast, cloned ecotropic and xenotropic viruses have no leukemogenic action.
232 citations
TL;DR: The results suggest that UEA-I lectin is a specific and sensitive adjunct tool in demonstrating endothelial cells and endothelial derivation of human tumors.
Abstract: Some skin and soft tumors, which generally are assumed to be derived from endothelial cells or blood vessels, were characterized with fluorochrome-labeled Ulex europaeus I agglutinin (UEA I), recently shown to bind specifically to endothelial cells in various normal human tissues. The staining pattern was compared with that obtained with immunostaining using antibodies against factor-VIII-related antigen (FVIII-RAG), a known marker for endothelial cells. The results showed that UEA-I is a specific and a more sensitive marker for the endothelial cells in benign vascular lesions as compared with anti-FVIII-RAG. UEA-I also stained many neoplastic cells of endothelial sarcomas, which generally were negative for FVIII-RAG. Melanomas, anaplastic carcinomas, and other types of sarcomas were negative for both UEA-I and FVIII-RAG. The results suggest that UEA-I lectin is a specific and sensitive adjunct tool in demonstrating endothelial cells and endothelial derivation of human tumors.
193 citations