Abstract
The NG2 proteoglycan is expressed by nascent pericytes during the early stages of angiogenesis. To investigate the functional role of NG2 in neovascularization, we have compared pathological retinal and corneal angiogenesis in wild type and NG2 null mice. During ischemic retinal neovascularization, ectopic vessels protruding into the vitreous occur twice as frequently in wild type retinas as in NG2 null retinas. In the NG2 knock-out retina, proliferation of both pericytes and endothelial cells is significantly reduced, and the pericyte:endothelial cell ratio falls to 0.24 from the wild type value of 0.86. Similarly, bFGF-induced angiogenesis is reduced more than four-fold in the NG2 null cornea compared to that seen in the wild type retina. Significantly, NG2 antibody is effective in reducing angiogenesis in the wild type cornea, suggesting that the proteoglycan can be an effective target for anti-angiogenic therapy. These experiments therefore demonstrate both the functional importance of NG2 in pericyte development and the feasibility of using pericytes as anti-angiogenic targets.
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Abbreviations
- BrdU:
-
bromodeoxyuridine
- CD31:
-
PECAM-1
- CD105:
-
endoglin
- flk 1:
-
VEGF receptor-2
- NG2:
-
nerve/glial antigen 2
- PBS:
-
phosphate-buffered saline
- PDGF β-receptor:
-
platelet-derived growth factor beta receptor
References
P Andersen J Henriksson (1977) ArticleTitleCapillary supply of the quadriceps femoris muscle of man: Adaptive response to exercise J Physiol 270 IssueID3 677–90
F Goto K Goto K Weindel J Folkman (1993) ArticleTitleSynergistic effects of vascular endothelial growth factor and basic fibroblast growth factor on the proliferation and cord formation of bovine capillary endothelial cells within collagen gels [see comments] Lab Invest 69 IssueID5 508–17
DW Leung G Cachianes WJ Kuang et al. (1989) ArticleTitleVascular endothelial growth factor is a secreted angiogenic mitogen Science 246 IssueID4935 1306–09
EC Breen EC Johnson H Wagner et al. (1996) ArticleTitleAngiogenic growth factor mRNA responses in muscle to a single bout of exercise J Appl Physiol 81 IssueID1 355–61
L Hoffner JJ Nielsen H Langberg Y Hellsten (2003) ArticleTitleExercise but not prostanoids enhance levels of vascular endothelial growth factor and other proliferative agents in human skeletal muscle interstitium J Physiol 550 IssueIDPt 1 217–25
KG Peters S Werner G Chen LT Williams (1992) ArticleTitleTwo FGF receptor genes are differentially expressed in epithelial and mesenchymal tissues during limb formation and organogenesis in the mouse Development 114 IssueID1 233–43
N Ferrara K Houck L Jakeman DW Leung (1992) ArticleTitleMolecular and biological properties of the vascular endothelial growth factor family of proteins Endocr Rev 13 IssueID1 18–32
S Kanno N Oda M Abe et al. (1999) ArticleTitleEstablishment of a simple and practical procedure applicable to therapeutic angiogenesis Circulation 99 IssueID20 2682–87
U Frandsen J Bangsbo H Langberg et al. (2000) ArticleTitleInhibition of nitric oxide synthesis by systemic N(G)-monomethyl-<sc>L</sc>-arginine administration in humans: Effects on interstitial adenosine, prostacyclin and potassium concentrations in resting and contracting skeletal muscle J Vasc Res 37 IssueID4 297–302
M Karamouzis I Karamouzis E Vamvakoudis et al. (2001) ArticleTitleThe response of␣muscle interstitial prostaglandin E(2)(PGE(2)), prostacyclin I(2)(PGI(2)) and thromboxane A(2)(TXA(2)) levels during incremental dynamic exercise in humans determined by in vivo microdialysis Prostaglandins Leukot Essent Fatty Acids 64 IssueID4–5 259–63
L Hoffner JJ Nielsen H Langberg Y Hellsten (2003) ArticleTitleExercise but not prostanoids enhance levels of vascular endothelial growth factor and other proliferative agents in human skeletal muscle interstitium J Physiol 550 IssueIDPt 1 217–25
H Benoit M Jordan H Wagner PD Wagner (1999) ArticleTitleEffect of NO, vasodilator prostaglandins, and adenosine on skeletal muscle angiogenic growth factor gene expression J Appl Physiol 86 IssueID5 1513–18
MK Jones H Wang BM Peskar et al. (1999) ArticleTitleInhibition of angiogenesis by nonsteroidal anti-inflammatory drugs: Insight into mechanisms and implications for cancer growth and ulcer healing Nat Med 5 IssueID12 1418–23
JF Murphy C Steele O Belton DJ Fitzgerald (2003) ArticleTitleInduction of cyclo-oxygenase-1 and −2 modulates angiogenic responses to engagement of alphavbeta3 Br J Haematol 121 IssueID1 157–64
D BenEzra (1978) ArticleTitleNeovasculogenic ability of prostaglandins, growth factors, and synthetic chemoattractants Am J Ophthalmol 86 IssueID4 455–61
H Benoit M Jordan H Wagner PD Wagner (1999) ArticleTitleEffect of NO, vasodilator prostaglandins, and adenosine on skeletal muscle angiogenic growth factor gene expression J Appl Physiol 86 IssueID5 1513–18
MM Hoper NF Voelkel TO Bates et al. (1997) ArticleTitleProstaglandins induce vascular endothelial growth factor in a human monocytic cell line and rat lungs via cAMP Am J Respir Cell Mol Biol 17 IssueID6 748–56
H Benoit M Jordan H Wagner PD Wagner (1999) ArticleTitleEffect of NO, vasodilator prostaglandins, and adenosine on skeletal muscle angiogenic growth factor gene expression J Appl Physiol 86 IssueID5 1513–18
S Harada JA Nagy KA Sullivan et al. (1994) ArticleTitleInduction of vascular endothelial growth factor expression by prostaglandin E2 and E1 in osteoblasts J Clin Invest 93 IssueID6 2490–96
SC Pearce O. MD Hudlicka (2000) ArticleTitleEffect of indomethacin on capillary growth and microvasculature in chronically stimulated rat skeletal muscles J Physiol 526 IssueID(Pt 2 435–43
H Benoit M Jordan H Wagner PD Wagner (1999) ArticleTitleEffect of NO, vasodilator prostaglandins, and adenosine on skeletal muscle angiogenic growth factor gene expression J Appl Physiol 86 IssueID5 1513–18
TP Gavin DA Spector H Wagner et al. (2000) ArticleTitleNitric oxide synthase inhibition attenuates the skeletal muscle VEGF mRNA response to exercise J Appl Physiol 88 IssueID4 1192–98
A RayChaudhury H Frischer AB Malik (1996) ArticleTitleInhibition of endothelial cell proliferation and bFGF-induced phenotypic modulation by nitric oxide J Cell Biochem 63 IssueID2 125–34
PC Lee MR Kibbe MJ Schuchert et al. (2000) ArticleTitleNitric oxide induces angiogenesis and upregulates alpha(v)beta(3) integrin expression on endothelial cells Microvasc Res 60 IssueID3 269–80
E Hashimoto K Kage T Ogita et al. (1994) ArticleTitleAdenosine as an endogenous mediator of hypoxia for induction of vascular endothelial growth factor mRNA in U-937 cells Biochem Biophys Res Commun 204 IssueID1 318–24
JW Gu AL Brady V Anand et al. (1999) ArticleTitleAdenosine upregulates VEGF expression in cultured myocardial vascular smooth muscle cells Am J Physiol 277 IssueID2 Pt 2 H595–602
J Bergström (1962) ArticleTitleMuscle electrolytes in man Determined by neuron activation analysis on needle biopsy specimen A study on normal subjects, kidney patients and patients with chronic diarrhoea Scand J Clin Lab Invest 14 87–93
Y Hellsten U Frandsen (1997) ArticleTitleAdenosine formation in contracting primary rat skeletal muscle cells and endothelial cells in culture J Physiol 504 IssueIDPt 3 695–704
IH Jonsdottir P Schjerling K Ostrowski et al. (2000) ArticleTitleMuscle contractions induce interleukin-6 mRNA production in rat skeletal muscles J Physiol 528 IssueIDPt 1 157–63
J Higginson H Wackerhage N Woods et al. (2002) ArticleTitleBlockades of mitogen-activated protein kinase and calcineurin both change fibre-type markers in skeletal muscle culture Pflugers Arch 445 IssueID3 437–43
E Tischer R Mitchell T Hartman et al. (1991) ArticleTitleThe human gene for vascular endothelial growth factor Multiple protein forms are encoded through alternative exon splicing. J Biol Chem 266 IssueID18 11947–54
CY Cheung M Singh MJ Ebaugh RA Brace (1995) ArticleTitleVascular endothelial growth factor gene expression in ovine placenta and fetal membranes Am J Obstet Gynecol 173 IssueID3 Pt 1 753–59
T Gustafsson K Bodin C Sylven et al. (2001) ArticleTitleIncreased expression of VEGF following exercise training in patients with heart failure Eur J Clin Invest 31 IssueID4 362–66
L Jensen J Bangsbo Y Hellsten (2004) ArticleTitleEffect of high intensity training on capillarization and presence of angiogenic factors in human skeletal muscle J Physiol 557 IssueIDPt 2 571–82
S Kastner MC Elias AJ Rivera Z Yablonka-Reuveni (2000) ArticleTitleGene expression patterns of the fibroblast growth factors and their receptors during myogenesis of rat satellite cells J Histochem Cytochem 48 IssueID8 1079–96
J Alterio Y Courtois J Robelin et al. (1990) ArticleTitleAcidic and basic fibroblast growth factor mRNAs are expressed by skeletal muscle satellite cells Biochem Biophys Res Commun 166 IssueID3 1205–12
EC Breen EC Johnson H Wagner et al. (1996) ArticleTitleAngiogenic growth factor mRNA responses in muscle to a single bout of exercise J Appl Physiol 81 IssueID1 355–61
T Gustafsson A Puntschart L Kaijser et al. (1999) ArticleTitleExercise-induced expression of angiogenesis-related transcription and growth factors in human skeletal muscle Am J Physiol 276 IssueID2 Pt 2 H679–85
RS Richardson H Wagner SR Mudaliar et al. (1999) ArticleTitleHuman VEGF gene expression in skeletal muscle: Effect of acute normoxic and hypoxic exercise Am J Physiol 277 IssueID6 Pt 2 H2247–52
TP Gavin PD Wagner (2001) ArticleTitleEffect of short-term exercise training on angiogenic growth factor gene responses in rats J Appl Physiol 90 IssueID4 1219–26
EC Breen EC Johnson H Wagner et al. (1996) ArticleTitleAngiogenic growth factor mRNA responses in muscle to a single bout of exercise J Appl Physiol 81 IssueID1 355–61
T Gustafsson A Puntschart Kaijser et al. (1999) ArticleTitleExercise-induced expression of angiogenesis-related transcription and growth factors in human skeletal muscle Am J Physiol 276 IssueID2 Pt 2 H679–85
RS Richardson H Wagner SR Mudaliar et al. (1999) ArticleTitleHuman VEGF gene expression in skeletal muscle: Effect of acute normoxic and hypoxic exercise Am J Physiol 277 IssueID6 Pt 2 H2247–52
TP Gavin PD Wagner (2001) ArticleTitleEffect of short-term exercise training on angiogenic growth factor gene responses in rats J Appl Physiol 90 IssueID4 1219–26
Jensen L, Pilegaard H, Neufer PD, Hellsten Y Effect of acute exercise and Exercise training on VEGF splice variants in human Skeletal Muscle. Am J Physiol Regul Integr Comp Physiol 2004
S Kanno N Oda M Abe et al. (1999) ArticleTitleEstablishment of a simple and practical procedure applicable to therapeutic angiogenesis Circulation 99 IssueID20 2682–87
EC Breen EC Johnson H Wagner et al. (1996) ArticleTitleAngiogenic growth factor mRNA responses in muscle to a single bout of exercise J Appl Physiol 81 IssueID1 355–61
T Gustafsson A Puntschart L Kaijser et al. (1999) ArticleTitleExercise-induced expression of angiogenesis-related transcription and growth factors in human skeletal muscle Am J Physiol 276 IssueID2 Pt 2 H679–85
RS Richardson H Wagner SR Mudaliar et al. (1999) ArticleTitleHuman VEGF gene expression in skeletal muscle: Effect of acute normoxic and hypoxic exercise Am J Physiol 277 IssueID6 Pt 2 H2247–52
EC Breen EC Johnson H Wagner et al. (1996) ArticleTitleAngiogenic growth factor mRNA responses in muscle to a single bout of exercise J Appl Physiol 81 IssueID1 355–61
H Benoit M Jordan H Wagner PD Wagner (1999) ArticleTitleEffect of NO, vasodilator prostaglandins, and adenosine on skeletal muscle angiogenic growth factor gene expression J Appl Physiol 86 IssueID5 1513–18
MM Hoper NF Voelkel TO Bates et al. (1997) ArticleTitleProstaglandins induce vascular endothelial growth factor in a human monocytic cell line and rat lungs via cAMP Am J Respir Cell Mol Biol 17 IssueID6 748–56
MK Jones H Wang BM Peskar et al. (1999) ArticleTitleInhibition of angiogenesis by nonsteroidal anti-inflammatory drugs: Insight into mechanisms and implications for cancer growth and ulcer healing Nat Med 5 IssueID12 1418–23
AJ Knox L Corbett J Stocks et al. (2001) ArticleTitleHuman airway smooth muscle cells secrete vascular endothelial growth factor: Up-regulation by bradykinin via a protein kinase C and prostanoid-dependent mechanism FASEB J 15 IssueID13 2480–8
Y Sakai K Fujita H Sakai K Mizuno (2001) ArticleTitleProstaglandin E2 regulates the expression of basic fibroblast growth factor messenger RNA in normal human fibroblasts Kobe J Med Sci 47 IssueID1 35–45
R Pai IL Szabo BA Soreghan et al. (2001) ArticleTitlePGE(2) stimulates VEGF expression in endothelial cells via ERK2/JNK1 signaling pathways Biochem Biophys Res Commun 286 IssueID5 923–8
JF Murphy C Steele O Belton DJ Fitzgerald (2003) ArticleTitleInduction of cyclooxygenase-1 and −2 modulates angiogenic responses to engagement of alphavbeta3 Br J Haematol 121 IssueID1 157–64
D BenEzra (1978) ArticleTitleNeovasculogenic ability of prostaglandins, growth factors, and synthetic chemoattractants Am J Ophthalmol 86 IssueID4 455–61
D Nie M Lamberti A Zacharek et al. (2000) ArticleTitleThromboxane A(2) regulation of endothelial cell migration, angiogenesis, and tumor metastasis Biochem Biophys Res Commun 267 IssueID1 245–51
K Fukuo T Inoue S Morimoto et al. (1995) ArticleTitleNitric oxide mediates cytotoxicity and basic fibroblast growth factor release in cultured vascular smooth muscle cells. A possible mechanism of neovascularization in atherosclerotic plaques J Clin Invest 95 IssueID2 669–76
J Dulak A Jozkowicz A Dembinska-Kiec et al. (2000) ArticleTitleNitric oxide induces the synthesis of vascular endothelial growth factor by rat vascular smooth muscle cells Arterioscler Thromb Vasc Biol 20 IssueID3 659–66
LR Silveira L Pereira-Da-Silva et al. (2003) ArticleTitleFormation of hydrogen peroxide and nitric oxide in rat skeletal muscle cells during contractions Free Radic Biol Med 35 IssueID5 455–64
TP Gavin DA Spector H Wagner et al. (2000) ArticleTitleNitric oxide synthase inhibition attenuates the skeletal muscle VEGF mRNA response to exercise J Appl Physiol 88 IssueID4 1192–98
LR Silveira L Pereira-Da-Silva C Juel Y Hellsten (2003) ArticleTitleFormation of hydrogen peroxide and nitric oxide in rat skeletal muscle cells during contractions Free Radic Biol Med 35 IssueID5 455–64
H Benoit M Jordan H Wagner PD Wagner (1999) ArticleTitleEffect of NO, vasodilator prostaglandins, and adenosine on skeletal muscle angiogenic growth factor gene expression J Appl Physiol 86 IssueID5 1513–8
A RayChaudhury H Frischer AB Malik (1996) ArticleTitleInhibition of endothelial cell proliferation and bFGF-induced phenotypic modulation by nitric oxide J Cell Biochem 63 IssueID2 125–34
H Benoit M Jordan H Wagner PD Wagner (1999) ArticleTitleEffect of NO, vasodilator prostaglandins, and adenosine on skeletal muscle angiogenic growth factor gene expression J Appl Physiol 86 IssueID5 1513–8
J Lynge G Schulte N Nordsborg et al. (2003) ArticleTitleAdenosine A 2B receptors modulate cAMP levels and induce CREB but not ERK1/2 and p38 phosphorylation in rat skeletal muscle cells Biochem Biophys Res Commun 307 IssueID1 180–7
L Hoffner JJ Nielsen H Langberg Y Hellsten (2003) ArticleTitleExercise but not prostanoids enhance levels of vascular endothelial growth factor and other proliferative agents in human skeletal muscle interstitium J Physiol 550 IssueIDPt 1 217–25
L Jensen J Bangsbo Y Hellsten (2004) ArticleTitleEffect of high intensity training on capillarization and presence of angiogenic factors in human skeletal muscle J Physiol 557 IssueIDPt 2 571–82
S Kanno N Oda M Abe et al. (1999) ArticleTitleEstablishment of a simple and practical procedure applicable to therapeutic angiogenesis Circulation 99 IssueID20 2682–7
I Kosmidou A Xagorari C Roussos A Papapetropoulos (2001) ArticleTitleReactive oxygen species stimulate VEGF production from C(2)C(12) skeletal myotubes through a PI3K/Akt pathway Am J Physiol Lung Cell Mol Physiol 280 IssueID4 L585–92
G Wu AP Mannam J Wu et al. (2003) ArticleTitleHypoxia induces myocyte-dependent COX-2 regulation in endothelial cells: Role of VEGF Am J Physiol Heart Circ Physiol 285 IssueID6 H2420–9
W Risau (1997) ArticleTitleMechanisms of angiogenesis Nature 386 IssueID6626 671–74
A Bikfalvi S Klein G Pintucci DB Rifkin (1997) ArticleTitleBiological roles of fibroblast growth factor-2 Endocr Rev 18 IssueID1 26–45
JE Cartwright AP Johnstone GS Whitley (2000) ArticleTitleEndogenously produced nitric oxide inhibits endothelial cell growth as demonstrated using novel antisense cell lines Br J Pharmacol 131 IssueID1 131–7
K Norrby (2000) ArticleTitleConstitutively synthesized nitric oxide is a physiological negative regulator of mammalian angiogenesis mediated by basic fibroblast growth factor Int J Exp Pathol 81 IssueID6 423–7
PG Phillips LM Birnby A Narendran WL Milonovich (2001) ArticleTitleNitric oxide modulates capillary formation at the endothelial cell-tumor cell interface Am J Physiol Lung Cell Mol Physiol 281 IssueID1 L278–90
A RayChaudhury H Frischer AB Malik (1996) ArticleTitleInhibition of endothelial cell proliferation and bFGF-induced phenotypic modulation by nitric oxide J Cell Biochem 63 IssueID2 125–34
LR Silveira L Pereira-Da-Silva C Juel Y Hellsten (2003) ArticleTitleFormation of hydrogen peroxide and nitric oxide in rat skeletal muscle cells during contractions Free Radic Biol Med 35 IssueID5 455–64
P Chomczynski N Sacchi (1987) ArticleTitleSingle-step method of RNA isolation by acid guanidium thiocyanate-phenol-chloroform extraction Analytical Biochemistry 162 156–59
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Ozerdem, U., Stallcup, W.B. Pathological angiogenesis is reduced by targeting pericytes via the NG2 proteoglycan. Angiogenesis 7, 269–276 (2004). https://doi.org/10.1007/s10456-004-4182-6
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DOI: https://doi.org/10.1007/s10456-004-4182-6