1996
DOI: 10.1016/s0967-5868(96)90035-1
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The expression of antisense vascular endothelial growth factor (VEGF) sequences inhibits intracranial C6 glioma growth in vivo by suppressing tumour angiogenesis

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Cited by 9 publications
(7 citation statements)
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“…The reduced vascularisation of the C6 Endo -E6 tumors was not sufficient to completely suppress tumor growth, nor lead to an increased tumor necrosis as would be expected in response to an inadequate blood supply. 9,10 We do not believe that the absence of complete tumor growth inhibition observed is due to reduced endostatin expression in the C6-transfected cell lines. We have attempted to use commercially available antibodies to mouse endostatin for immunohistochemical analysis on our frozen tumor sections.…”
Section: Discussionmentioning
confidence: 94%
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“…The reduced vascularisation of the C6 Endo -E6 tumors was not sufficient to completely suppress tumor growth, nor lead to an increased tumor necrosis as would be expected in response to an inadequate blood supply. 9,10 We do not believe that the absence of complete tumor growth inhibition observed is due to reduced endostatin expression in the C6-transfected cell lines. We have attempted to use commercially available antibodies to mouse endostatin for immunohistochemical analysis on our frozen tumor sections.…”
Section: Discussionmentioning
confidence: 94%
“…21,24 Vascular density was calculated by counting the number of vessels in 10 random standard fields (0.55 ϫ 0.4 mm) in 5 sections/tumor. 25 Intracranial tumor volumes were calculated from haematoxylin-and eosin-stained brain sections as previously described 10,25 as length ϫ width ϫ depth (mm 3 ) Ϯ standard error.…”
Section: Immunohistochemistrymentioning
confidence: 99%
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“…Serial frozen sections (7 m) of subcutaneous tumor or whole brain were stained in the following ways: (1) hematoxylin and eosin for tumor cell volumes and infiltrating granulocytes; (2) indirect immunoperoxidase with the rat anti-mouse PECAM monoclonal antibody (MAB) (PharMingen, San Diego, CA, USA) or mouse anti-rat PECAM MAB (Endogen, Woburn, MA, USA) for vascular endothelial cells in mouse 7,37,42 or rat 43,44 tissue respectively; (3) indirect immunoperoxidase with the mouse anti-rat RT1.B class II MAB (HIS 19; Serotec, Oxford, UK), the mouse anti-rat RT1.A MHC class I MAB (Ox-18; Serotec), the rat anti-mouse IFN-␥ MAB (XMG1-2), the mouse anti-rat CD3 + /TcR MAB (453(MCA)), the mouse anti-rat CD4 + MAB (W3/25), the mouse anti-rat CD8 + MAB (Ox8) or the mouse anti-rat macrophage MAB (ED1) (gifts from P Motram, The University of Melbourne); (4) ␤-galactosidase staining for visualization of RPC and transduced cells. 24 Vascular density was calculated by counting the number of vessels in 10 random standard fields (0.55 × 0.4 mm) in five sections per tumor.…”
Section: Histological Analysis Of Tissuementioning
confidence: 99%
“…Serial frozen sections of 7 µm were cut through the entire tumours. Alternate sections were stained either with haematoxylin and eosin or by indirect immunoperoxidase with the rat anti-mouse PECAM monoclonal antibody (PharMingen, San Diego, CA) as previously described (Saleh et al, 1996b), which detects vascular endothelial cells in the tumours. The sections were counterstained with Harris' haematoxylin.…”
Section: Immunohistochemistrymentioning
confidence: 99%