Neoadjuvant Treatment of Colorectal Cancer with Bevacizumab: The Perioperative Angiogenic Balance Is Sensitive to Systemic Thrombospondin-1 Levels

Brostjan, Christine; Gebhardt, Kristina; Gruenberger, Birgit; Steinrueck, Verena; Zommer, Halina; Freudenthaler, Harald; Roka, R.; Gruenberger, Thomas

doi:10.1158/1078-0432.ccr-07-4081

Cited by 29 publications

(25 citation statements)

References 41 publications

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“…The reduction of proliferation cannot be translated into wound healing, as we do not see any significant differences between either VEGF antagonisttreated and untreated cells. In a scratch wound-healing assay with endothelial cells treated with the serum of bevacizumab treated patients, no inhibition of wound healing could be seen, either, corresponding well to our findings [22]. RPE cells are reported to close wounds in vitro rather by single cell migration of elongated RPE cells [23,24] than by proliferation, which would be a logical explanation as to why the impairment of proliferation is of no consequence for wound healing.…”

Section: Discussionsupporting

confidence: 86%

Intracellular bevacizumab reduces phagocytotic uptake in RPE cells

Klettner

Möhle

Roider

2010

Graefes Arch Clin Exp Ophthalmol

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Section: Discussionsupporting

confidence: 86%

Intracellular bevacizumab reduces phagocytotic uptake in RPE cells

Klettner

Möhle

Roider

2010

Graefes Arch Clin Exp Ophthalmol

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“…The model provides a quantitative and mechanistic description as to how this pro-angiogenic state occurs. Specifically, the predictions provide insight into why the absolute concentration of TSP1 can be significantly greater than VEGF, either in plasma or tumor tissue, 9 but may not be sufficient to inhibit angiogenesis.…”

Section: Discussionmentioning

confidence: 99%

“…9 Therefore, another means of increasing the efficacy of anti-angiogenic treatment may be to mimic the action of inhibitors of angiogenesis, while simultaneously inhibiting the promoters. For example, in a preclinical model of pancreatic cancer, altering the balance between pro- and anti-angiogenic factors was shown to modulate tumor growth.…”

Section: Introductionmentioning

confidence: 99%

Predictive model of thrombospondin-1 and vascular endothelial growth factor in breast tumor tissue

2016

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Angiogenesis, the formation of new blood capillaries from pre-existing vessels, is a hallmark of cancer. Thus far, strategies for reducing tumor angiogenesis have focused on inhibiting pro-angiogenic factors, while less is known about the therapeutic effects of mimicking the actions of angiogenesis inhibitors. Thrombospondin-1 (TSP1) is an important endogenous inhibitor of angiogenesis that has been investigated as an anti-angiogenic agent. TSP1 impedes the growth of new blood vessels in many ways, including crosstalk with pro-angiogenic factors. Due to the complexity of TSP1 signaling, a predictive systems biology model would provide quantitative understanding of the angiogenic balance in tumor tissue. Therefore, we have developed a molecular-detailed, mechanistic model of TSP1 and vascular endothelial growth factor (VEGF), a promoter of angiogenesis, in breast tumor tissue. The model predicts the distribution of the angiogenic factors in tumor tissue, revealing that TSP1 is primarily in an inactive, cleaved form due to the action of proteases, rather than bound to its cellular receptors or to VEGF. The model also predicts the effects of enhancing TSP1’s interactions with its receptors and with VEGF. To provide additional predictions that can guide the development of new anti-angiogenic drugs, we simulate administration of exogenous TSP1 mimetics that bind specific targets. The model predicts that the CD47-binding TSP1 mimetic dramatically decreases the ratio of receptor-bound VEGF to receptor-bound TSP1, in favor of anti-angiogenesis. Thus, we have established a model that provides a quantitative framework to study the response to TSP1 mimetics.

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“…Platelet-poor plasma was prepared as previously described (Brostjan et al , 2008; Starlinger et al , 2010b, 2011). Briefly, blood (10 ml) was drawn into prechilled CTAD tubes containing sodium citrate, theophylline, adenosine, and dipyridamole, was kept on ice and further processed within 30 min.…”

Section: Methodsmentioning

confidence: 99%

Neoadjuvant bevacizumab persistently inactivates VEGF at the time of surgery despite preoperative cessation

et al. 2012

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Background:When anti-VEGF (vascular endothelial growth factor) antibody bevacizumab is applied in neoadjuvant treatment of colorectal cancer patients with liver metastasis, 5–6 weeks between last bevacizumab dose and liver resection are currently recommended to avoid complications in wound and liver regeneration. In this context, we aimed to determine whether VEGF is inactivated by bevacizumab at the time of surgery.Methods:Fifty colorectal cancer patients with liver metastases received neoadjuvant chemotherapy±bevacizumab supplementation. The last dose of bevacizumab was administered 6 weeks before surgery. Plasma, subcutaneous and intraabdominal wound fluid were analysed for VEGF content before and after liver resection (day 1–3). Immunoprecipitation was applied to determine the amount of bevacizumab-bound VEGF.Results:Bevacizumab-treated individuals showed no increase in perioperative complications. During the entire monitoring period, plasma VEGF was inactivated by bevacizumab. In wound fluid, VEGF was also completely bound by bevacizumab and was remarkably low compared with the control chemotherapy group.Conclusion:These data document that following a cessation time of 6 weeks, bevacizumab is fully active and blocks circulating and local VEGF at the time of liver resection. However, despite effective VEGF inactivation no increase in perioperative morbidity is recorded suggesting that VEGF activity is not essential in the immediate postoperative recovery period.

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Neoadjuvant Treatment of Colorectal Cancer with Bevacizumab: The Perioperative Angiogenic Balance Is Sensitive to Systemic Thrombospondin-1 Levels

Cited by 29 publications

References 41 publications

Intracellular bevacizumab reduces phagocytotic uptake in RPE cells

Intracellular bevacizumab reduces phagocytotic uptake in RPE cells

Predictive model of thrombospondin-1 and vascular endothelial growth factor in breast tumor tissue

Neoadjuvant bevacizumab persistently inactivates VEGF at the time of surgery despite preoperative cessation

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