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Research Article

Lumen Formation In VivoVersus In VitroObservations

STUART EGGINTON Angiogenesis Research Group, Department of Physiology, University of Birmingham, UK
&
MARY GERRITSEN Millennium Pharmaceuticals Inc., South San Francisco, CA, USA
Pages 45-61 | Published online: 10 Jul 2009

REFERENCES

  • Aitkenhead M, Wang SJ, Nakatsu MN, Mestas J, Heard C, Hughes CC. (2002). Identification of endo-thelial cell genes expressed in an in vitro model of angiogenesis: Induction of ESM-1, (beta)ig-h3, and NrCA1VI. Microvasc Res 63:159–171.
  • Alessandri G, Girelli M, Taccagni G, Colombo A, Nicosia R, Caruso A, Baronio M, Pagano S, Cova L, Parati E. (2001). Human vasculogenesis ex vivo: Em-bryonal aorta as a tool for isolation of endothelial cell progenitors. Lab Invest 81:875–885.
  • Appell H-J. (1980). Morphological studies on skeletal muscle capillaries under conditions of high altitude training. Int J Sports Med 1:37–41.
  • Ausprunk DH, Knighton DR, Folkman J. (1974). Dif-ferentiation of vascular endothelium in the chick cho-rioallantois: A structural and autoradiographic study. Dev Biol 38:237–248.
  • Bach TL, Barsigian C, Chalupowicz DG, Busler D, Yaen CH, Grant DS, Martinez J. (1998). VE-cadherin mediates endothelial cell capillary tube formation in fibrin and collagen gels. Exp Cell Res 238:324–334.
  • Bayless KJ, Davis GE. (2002). The Cdc42 and Rac1 GTPases are required for capillary lumen formation in three-dimensional extracellular matrices. J Cell Sci 115:1123–1136.
  • Bayless KJ, Salazar R, Davis GE. (2000). RGD-dependent vacuolation and lumen formation ob-served during endothelial cell morphogenesis in three-dimensional fibrin matrices involves the al-pha (v) beta (3 ) and alpha (5 ) beta (1 ) integrins . Am J Pathol 156:1673–1683.
  • Bell SE, Mavila A, Salazar R, Bayless KJ, Kanagala S, Maxwell SA, Davis GE. (2001). Differential gene ex-pression during capillary morphogenesis in 3D colla-gen matrices: regulated expression of genes involved in basement membrane matrix assembly, cell cycle progression, cellular differentiation and G-protein signaling. J Cell Sci 114:2755–2773.
  • Bikfalvi A, Cramer EM, Tenza D, Tobelem G. (1991). Phenotypic modulations of human umbilical vein en-dothelial cells and human dermal fibroblasts using two angiogenic assays. Biol Cell 72:275–278.
  • Birdwell CR, Gospodarowicz D, Nicholson GL. (1977). Factors from 3T3 cells stimulate proliferation of cultured vascular endothelial cells. Nature 268: 528–531.
  • Bishop ET, Bell GT, Bloor S, Broom IJ, Hendry NFK, Wheatley DN. (1999). An in vitro model of angiogen-esis. Angiogenesis 3:335–344.
  • Brown MD, Egginton S, Hudlická O, Zhou AL. (1996). Appearance of the capillary endothelial gly-cocalyx in chronically stimulated rat skeletal muscles in relation to angiogenesis. Exp Physiol 81:1043–1046.
  • Burni PH, Tarek MR. (1990). A novel mechanism of capillary growth in the rat pulmonary microcircula-don. Anat Rec 228:35–45.
  • Caulfield JB, Borg TK. (1979). The collagen network of the heart. Lab Invest 40:364–372.
  • Clark ER. (1918). Studies on the growth of blood vessels in the tail of frog larvae. Am J Anat 23:37–88.
  • Clark ER, Hitchler WJ, Kirby-Smith HT, Rex RO, Smith JH. (1931). General observations on the in-growth of new blood vessels into standardised cham-bers in the rabbit's ear, and the subsequent changes in the newly grown vessels over a period of months. Anat Rec 50:129–168.
  • Cliff WJ. (1981). Endothelial structure and ultra-structure during growth, development, and aging. In: Schwartz CJ, Werthesson NT, Wolf S, editors. Struc-ture and Function of the Circulation. New York, NY: Plenum Press, 695–718.
  • Cliff WJ. (1963). Observations on healing tissue: a combined light and electron microscope investigation. Philos Trans R Soc Loud 246:305–325.
  • Colville-Nash PR, Willoughby DA. (1997). Growth factors in angiogenesis: current interest and therapeu-tic potential. Mol Med Today 3:14–23.
  • Davies PF. (1995). Flow-mediated endothelial mechanotransduction. Physiol Rev 75:519–560.
  • Davis GE, Camarillo CW. (1996). An alpha 2 beta 1 integrin-dependent pinocytic mechanism involving intracellular vacuole formation and coalescence regu-lates capillary lumen and tube formation in three-dimensional collagen matrix. Exp Cell Res 224:39–51.
  • Dawson ym, Hudlická O. (1989). The effects of long term administration of prazosin on the microcircula-tion in skeletal muscles. Cardiovasc Res 23:913–920.
  • Delorme P. (1972). [Ultrastructural differentiation of intercellular junctions in the endothelium of capillar-ies in the embryonic telencephalon of the chicken.] Z Zellforsch Mikrosk Anat 133:571–582.
  • Donovan D, Brown NJ, Bishop ET, Lewis CE. (2001). Comparison of three in vitro human 'angiogenesis' assays with capillaries formed in vivo. Angiogenesis 4:113–121.
  • Dyson SE, Jones DG, Kendrick WL. (1976). Some observations on the ultrastructure of developing rat cerebral capillaries. Cell Tissue Res 173:529–542.
  • Egginton S, Hudlická O. (1999). Early changes in performance, blood flow and capillary fine structure in rat fast muscles induced by electrical stimulation. J Physiol 515:265–275.
  • Egginton S, Hudlická O, Brown MD, Graciotti L, Granata AL. (1996). In vivo pericyte-endothelial cell interaction during angiogenesis in adult cardiac and skeletal muscle. Micro vasc Res 51:213–228.
  • Egginton S, Hudlická O, Brown MD, Walter H, Weiss JB, Bate A. (1998). Capillary growth in relation to blood flow and performance in overloaded rat skeletal muscle. J Appl Physiol 85:2025–2032.
  • Egginton S, Zhou AL, Brown MD, Hudlicka O. (2001). Unorthodox angiogenesis in skeletal muscle. Cardiovasc Res 49:634–646.
  • Egginton S, Zhou AL, Brown MD, Hudlická O. (2000). The role of pericytes in controlling angiogen-esis in vivo. Adv Exp Med Biol 476:81–99.
  • Ferrara N, Alitalo K. (1999). Clinical applications of angiogenic growth factors and their inhibitors. Nat Med 5:1359–1364.
  • Folkman J. (1995). Angiogenesis in cancer, vascular, rheumatoid and other disease. Nat Med 1:27–31.
  • Folkman J, Haudenschild C. (1980). Angiogenesis in vitro. Nature 288:551�556.
  • Furusato M, Fukunaga M, Kikuchi Y, Chiba S, Yokota K, Joh K, Aizawa S, Ishikawa E. (1984). Two and three-dimensional ultrastructural observations of angiogenesis in juvenile hemangioma. Virchows Arch B Cell Pathol Incl Mol Pathol 46:229�237.
  • Guldner FH, Wolff JR. (1973). Seamless endothelia as indicators of capillaries developed from sprouts. Bibl Anat 12:120–123.
  • Hammersen F, Hammersen E. (1984). The ultrastructure of microvascular endothelial cell reactions to various stimuli. Prog Adv Microcirc 6:91�108.
  • Hansen-Smith F, Egginton S, Zhou AL, Hudlicka O. (2001). Growth of arterioles precedes that of capillaries in stretch-induced angiogenesis in skeletal muscle. Microvasc Res 62:1�14.
  • Hansen-Smith FM, Hudlicka O, Egginton S. (1996). In vivo angiogenesis in adult rat skeletal muscle: Early changes in capillary network architecture and ultrastructure. Cell Tissue Res 286:123�136.
  • Hoying JB, Boswell CA, Williams SK. (1996). Angiogenic potential of microvessel fragments established in three-dimensional collagen gels. In Vitro Cell Dev Biol Anim 32:409�419.
  • Hudlicka O. (1991). What makes blood vessels grow? J Physiol 444:1–24.
  • Hudlicka O, Brown M, Egginton S. (1992). Angio-genesis in skeletal and cardiac muscle. Physiol Rev 72:369�417.
  • Hudlicka O, Brown MD, Egginton S. (1998). Angiogenesis: Basic concepts and methodology. In: Halliday A, Hunt BJ, Poston L, Schachter M, editors. An Introduction to Vascular Biology. Cambridge, UK: Cambridge University Press, 3�19.
  • Hudlicka O, Tyler KR. (1986). Angiogenesis: The Growth of the Vascular System. London, UK: Academic Press.
  • Jain RK, Schlenger K, Hockel M, Yuan F. (1997). Quantitative angiogenesis assays: progress and prob-lems. Nat Med 3:1203�1208.
  • Jiang WG, Harding KG. (1998). Enhancement of wound tissue expansion and angiogenesis by matrixembedded fibroblast (dermagraft), a role of hepatocyte growth factor/scatter factor. Int J Mol Med 2: 203–210.
  • Kahn J, Mehraban F, Ingle G, Xin X, Bryant JE, Vehar G, Schoenfeld J, Grimaldi CJ, Peale F, Draksharapu A, Lewin DA, Gerritsen ME. (2000). Gene expression profiling in an in vitro model of angiogenesis. Am J Pathol 156:1887–1900.
  • Klagsbrun M, Knighton D, Folkman J. (1976). Tu-mor angiogenesis activity in cells grown in tissue cul-ture. Cancer Res 36:110�114.
  • Korff T, Augustin HG. (1998). Integration of endo-thelial cells in multicellular spheroids prevents apo-ptosis and induces differentiation. J Cell Biol 143:
  • Kuzuya M, Kinsella JL. (1994). Induction of endo-thelial cell differentiation in vitro by fibroblast-derived soluble factors. Exp Cell Res 215:310–318.
  • Lawley TJ, Kubota Y. (1989). Induction of morpho-logic differentiation of endothelial cells in culture. J Invest Dermatol 93:59S–61S.
  • Lee J, Schmid-Schonbein GW. (1995). Biomechanics of skeletal muscle capillaries: Hemodynamic resis-tance, endothelial distensibility, and pseudopod for-mation. Ann Biomed Eng 23:226–246.
  • Lelkes PI. (1999). Endothelium and Mechanical Forces. London, UK: Harwood Academic Publishers. Lewis WH. (1931). The outgrowth of endothelium and capillaries in tissue culture. Bull Johns Hopkins Hosp 48:242.
  • Lewis WH. (1931). The outgrowth of endothelium and capillaries in tissue culture. Bull Johns Hopkins Hosp 48:242.
  • Ljungqvist A, Unge G. (1977). Capillary proliferative activity in myocardium and skeletal muscle of exer-cised rats. J Appl Physiol 43:306–307.
  • Manasek FJ. (1971). The ultrastructure of embryonic myocardial blood vessels. Dev Biol 26:42–54.
  • Martin TA, Harding K, Jiang WG. (2001). Matrix-bound fibroblasts regulate angiogenesis by modula-tion of VE-cadherin. Eur J Clin Invest 31:931–938.
  • Meyer GT, Matthias LJ, Noack L, Vadas MA, Gamble JR. (1997). Lumen formation during angiogenesis in vitro involves phagocytic activity, formation and se-cretion of vacuoles, cell death, and capillary tube re-modelling by different populations of endothelial cells. Anat Rec 249:327–340.
  • Milkiewicz M, Brown MD, Egginton S, Hudlická O. (2001). Association between shear stress, angiogene-sis, and VEGF in skeletal muscles in vivo. Microcir-culation 8:229–241.
  • Montesano R, Pepper MS, Orci L. (1993). Paracrine induction of angiogenesis in vitro by Swiss 3T3 fibro-blasts. J Cell Sci 105:1013–1024.
  • Myrhage R, Hudlická O. (1978). Capillary growth in chronically stimulated adult skeletal muscle as stud-ied by intravital microscopy and histological methods in rabbits and rats. Microvasc Res 16:73–90.
  • Nehls V, Drenckhahn D. (1995). A novel, microcar-rier-based in vitro assay for rapid and reliable quan-tification of three-dimensional cell migration and an-giogenesis. Microvasc Res 50:311–322.
  • Nicosia RF, McCormick JF, Bielunas J. (1984). The formation of endothelial webs and channels in plasma clot culture. Scan Electron Microsc (Pt 2):793–799.
  • Nicosia RF, Ottinetti A. (1990). Modulation of micro-vascular growth and morphogenesis by reconstituted basement membrane gel in three-dimensional cul-tures of rat aorta: A comparative study of angiogen-esis in matrigel, collagen, fibrin, and plasma clot. In Vitro Cell Dev Biol 26:119–128.
  • Nicosia RF, Tchao R, Leighton J. (1986). Interactions between newly formed endothelial channels and car-cinoma cells in plasma clot culture. Clin Exp Metas-tasis 4:91–104.
  • Norden DM. (1990). Origins and assembly of avian embryonic blood vessels. Ann N Y Acad Sci 588:236–249.
  • Pardanaud L, Luton D, Prigent M, Bourcheix LM, Catala M, Dieterlen-Lievre F. (1996). Two distinct endothelial lineages in ontogeny, one of them related to hemopoiesis. Development 122:1363�1371.
  • Patan S, Haenni B, Burri PH. (1996). Implementation of intussusceptive microvascular growth in the chicken chorioallantoic membrane (CAM): 1. Pillar formation by folding of the capillary wall. Microvasc Res 51:80�98.
  • Patan S, Munn LL, Jain RK. (1996). Intussusceptive microvascular growth in a human colon adenocarcinoma xenograft: A novel mechanism of tumor angiogenesis. Microvasc Res 51:260�272
  • Rhodin JA, Fujita H. (1989). Capillary growth in the mesentery of normal young rats: Intravital video and electron microscope analyses. J Submicrosc Cytol Pathol 21:1�34.
  • Risau W. (1997). Mechanisms of angiogenesis. Na-ture 386:671–674.
  • Rongish BJ, Hinchrnan G, Doty MK, Baldwin HS, To-manek RJ. (1996). Relationship of the extracellular matrix to coronary neovascularization during devel-opment. J Mol Cell Cardiol 28:2203–2215.
  • Sabin FR. (1920). Studies on the origin of bloodvessels and of red blood-corpuscles as seen in the living blastoderm of chicks during the second day of incubation. Contrib Embryol 9:213�259.
  • Scoazec JY, Degott C, Reynes M, Benharnou JP, Feld-mann G. (1989). Epithelioid hemangioendothelioma of the liver: an ultrastructural study. Hum Pathol 20: 673–681.
  • Senger DR. (1996). Molecular framework for angiogenesis: a complex web of interactions between extravasated plasma proteins and endothelial cell proteins induced by angiogenic cytokines. Am J Pathol 149:1�7.
  • Smith U, Ryan JW, Michie DD, Smith DS. (1971). Endothelial projections as revealed by scanning elec-tron microscopy. Science 173:925–927.
  • Stingl J, Rhodin JA. (1994). Early postnatal growth of skeletal muscle blood vessels of the rat. Cell Tissue Res 275:419�434.
  • Strek P, Litwin JA, Nowogrodzka-Zagorska M, Miodonski AJ. (1995). Microvasculature of the dorsal mucosa of human fetal tongue: A SEM study of corrosion casts. Anat Anz 177:361�366.
  • Tolsma SS, Stack MS, Bouck N. (1997). Lumen formation and other angiogenic activities of cultured capillary endothelial cells are inhibited by thrombospondin- 1. Microvasc Res 54:13�26
  • van Groningen JP, Wenink AC, Testers LH. (1991). Myocardial capillaries: Increase in number by split-ting of existing vessels. Anat Embryol (Berl) 184:65–70.
  • Villaschi S, Nicosia RF. (1994). Paracrine interac-tions between fibroblasts and endothelial cells in a serum-free coculture model: Modulation of angiogen-esis and collagen gel contraction. Lab Invest 71:291–299.
  • Wagner RC. (1980). Endothelial cell embryology and growth. Adv Microcirc 9:45–75.
  • Warren BA. (1966). The ultrastructure of capillary sprouts induced by melanoma transplants in the golden hamster. J R Microsc Soc 86:177–187.
  • Weckroth M, Vaheri A, Lauharanta J, Sorsa T, Konttinen YT. (1996). Matrix metalloproteinases, gelatinase and collagenase, in chronic leg ulcers. J Invest Dermatol 106:1119–1124.
  • Welt K, Schippel K, Schippel G, Scheller W. (1974). [Ultrastructure of capillaries in the skeletal muscle of the white rat from the 19th fetal day of the 2d day post parturn.] Z Mikrosk Anat Forsch 88:465–478.
  • White FC, Bloor CM, McKirnan MD, Carroll SM. (1998). Exercise training in swine promotes growth of arteriolar bed and capillary angiogenesis in heart. J Appl Physiol 85:1160–1168.
  • Wolff JR, Bar T. (1972). "Seamless" endothelia in brain capillaries during development of the rat's ce-rebral cortex. Brain Res 41:17–24.
  • Xin X, Yang S, Ingle G, Zlot C, Rangell L, Kowalski J, Schwall R, Ferrara N, Gerritsen ME. (2001). He-patocyte growth factor enhances vascular endothelial growth factor-induced angiogenesis in vitro and in vivo. Am J Pathol 158:1111–1120.
  • Yamagami I. (1970). Electronrnicroscopic study of the cornea: 1. The mechanism of experimental new vessel formation. Jpn J Opthalmol 14:41–58.
  • Yang S, Graham J, Kahn JW, Schwartz EA, Gerritsen ME. (1999). Functional roles for PECAM-1 (CD31) and VE-cadherin (CD144) in tube assembly and lu-men formation in three-dimensional collagen gels. Am J Pathol 155:887–895.
  • Zhou A, Egginton S, Hudlická O, Brown MD. (1998). Internal division of capillaries in rat skeletal muscle in response to chronic vasodilator treatment with al-pha1-antagonist prazosin. Cell Tissue Res 293:293–303.
  • Zhou AL, Egginton S, Brown MD, Hudlická O. (1998). Capillary growth in overloaded, hypertrophic adult rat skeletal muscle: An ultrastructural study. Anat Rec 252:49–63.
  • Ziada A, Hudlická O, Tyler KR. (1989). The effect of long-term administration of alpha 1-blocker prazosin on capillary density in cardiac and skeletal muscle. Pflügers Arch 415:355–360

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