Abstracts

INTRODUCTION

Angiogenesis, the formation and growth of new capillary blood vessels, is normally under stringent control. Expansion of the capillary bed by angiogenesis is in the healthy adult limited to wound healing, physiological growth of tissues (e.g. fat, skeletal muscle) and cyclic variations in the endometrium and the corpus luteum (Hori et al. 1996Hori Y, Hu D-E, Yasui K, Smither RL, Gresham GA and Fan T-PD. 1996. Differential effects of angiostatic steroids and dexamethasone on angiogenesis and cytokine levels in rat sponge implants. Br J Pharmacol 118: 1584-1591., Andrade et al. 1997Andrade SP, Machado RDP, Teixeira AS, Belo AV, Tarso AM and Beraldo WT. 1997. Sponge-induced angiogenesis in mice and the pharmacological reactivity of the neovasculature quantitated by a fluorimetric method. Microvasc Res 54: 253-261., Kilarski et al. 2012Kilarski WW, Petersson L, Fuchs PF, Zielinski MS and Gerwins P. 2012. An in vivo neovascularization assay for screening regulators of angiogenesis and assessing their effects on pre-existing vessels. Angiogenesis 15: 643-655. http://www.springerlink.com/content/l32pu18520049645/fulltext.pdf
http://www.springerlink.com/content/l32p... ). By contrast, uncontrolled angiogenesis can often been seen as a contributing factor in a number of angiogenesis-dependent pathologies, such as tumor growth, proliferative retinopathies, rheumatoid arthritis and psoriasis (Kilarski et al. 2012Kilarski WW, Petersson L, Fuchs PF, Zielinski MS and Gerwins P. 2012. An in vivo neovascularization assay for screening regulators of angiogenesis and assessing their effects on pre-existing vessels. Angiogenesis 15: 643-655. http://www.springerlink.com/content/l32pu18520049645/fulltext.pdf
http://www.springerlink.com/content/l32p... ).

Stimuli such as carbon dioxide, nitric oxide, hypoxia or the increased metabolic demands associated with exercise work through multiple pathways regulate angiogenesis in a complex process mediated by a number of growth factors and cytokines, such as vascular endothelium growth factors (VEGF), fibroblast growth factors (FGF), angiopoietin, platelet-derived growth factors (PDGF), tumor necrosis factor-α, and some interleukins. Elucidating exactly how angiogenic pathways are integrated in different pathophysiological contexts will be of great interest (Poon et al. 2001Poon RT, Ng IO, Lau C, Yu WC, Fan ST and Wong J. 2001. Correlation of serum basic fibroblast growth factor levels with clinicopathologic features and postoperative recurrence in hepatocellular carcinoma. Am J Surg 182: 298-304., Wang et al. 2005Wang L, Shi GG, Yao JC, Gong W, Wei D, Wu TT, Ajani JA, Huang S and Xie K. 2005. Expression of endothelial nitric oxide synthase correlates with the angiogenic phenotype of and predicts poor prognosis in human gastric cancer. Gastric Cancer 8(1): 18-28., Lahteenvuo and Rosenzweig 2012Lahteenvuo J and Rosenzweig A. 2012. Effects of aging on angiogenesis. Cir Res 110: 1252-1264., Claesson-Welsh 2012Claesson-Welsh L. 2012. Blood vessels as targets in tumor therapy. Upsala J Med Sci 117: 178-186.).

Recent studies have shown that angiogenesis inhibitors are promising therapies for the treatment of patients with cancer. Most of antiangiogenic drugs block the formation of growth factors such as VEGF and others. Different approaches have been explored such as VEGF traps and inhibitors of VEGF kinase activity, anti-VEGF receptor antibodies and more recently drugs that target additional factors such as FGF, platelet-derived growth factors and others antiangiogenic drugs (Fokas et al. 2012Fokas E, McKenna WG and Muschel RJ. 2012. The impact of tumor microenvironment on cancer treatment and its modulation by direct and indirect antivascular strategies. Cancer & Metastasis Rev 31: 823-842. http://www.springerlink.com/content/2782x737m8315wgl/fulltext.pdf
http://www.springerlink.com/content/2782... ). For example, Bevacizumab is a recombinant, humanized, monoclonal immunoglobulin G1 antibody targeted at VEGF-A that was approved by the United State's Food and Drug Administration (FDA) for the treatment of metastatic colorectal cancer, non-squamous non-small cell lung cancer, glioblastoma, and metastatic renal cell carcinoma. This antibody binds to and neutralizes all biologically active forms of VEGF-A (e.g. VEGF-A165) which suppresses growth of tumors and inhibits progression of metastatic disease (Itamochi and Kigawa 2012Itamochi H and Kigawa J. 2012. Clinical trials and future potential of target therapy for ovarian cancer. 2012. Int J Clin Oncol 17: 430-440. http://www.springerlink.com/content/h62r04t134g361h0/fulltext.pdf
http://www.springerlink.com/content/h62r... ).

Thalidomide (α-N-phthalimido glutarimide) is a glutamic acid derivative that was first introduced in 1954 as a sedative drug but was withdrawn from the market due to its teratogenic effects. Thalidomide has various pharmacological properties such as immunomodulatory, anti-inflammatory and antiangiogenic activity and it has been used successfully for various inflammatory and autoimmune diseases and some tumors (Amirshahrokhi and Ghazi-Khansari 2012Amirshahrokhi K and Ghazi-Khansari M. 2012. Thalidomide attenuates multiple low-dose streptozotocin-induced diabetes in mice by inhibition of proinflammatory cytokines. Cytokine: 60: 522-527. http://dx.doi.org/10.1016/j.cyto.2012.07.029.
http://dx.doi.org/10.1016/j.cyto.2012.07... ).

A variety of animal models have been described to provide more quantitative analysis of in vivo angiogenesis and to characterize pro- and antiangiogenic molecules (Andrade et al. 1997Andrade SP, Machado RDP, Teixeira AS, Belo AV, Tarso AM and Beraldo WT. 1997. Sponge-induced angiogenesis in mice and the pharmacological reactivity of the neovasculature quantitated by a fluorimetric method. Microvasc Res 54: 253-261.). The assays for angiogenesis that are frequently used include the chick chorioallantoic membrane (CAM), transparent chambers, matrix or sponge implants and the cornea model. All utilize the pre-existing vasculature as a source of vessels that expand into an implanted or injury-induced matrix. However, none of these methods and their modifications are ideal as they are difficult to quantify or observe vascular growth continuously. It is necessary to establish a quantitative, reproducible and specific method for studies of angiogenesis factors and inhibitors (Andrade et al. 1987Andrade SP, Fan T-PD and Lewis GP. 1987. Quantitative in-vivo studies on angiogenesis in a rat sponge model. Br J Exp Path 68: 755-766.).

The present study aimed to evaluate and quantify the angiogenic potential of thalidomide, by in vivo mice sponge implantation assay. This method was chosen to be standardized as it was reproducible, not dependent on the observer's experience, and could be applied in the Faculdade de Medicina do ABC (Andrade et al. 1997Andrade SP, Machado RDP, Teixeira AS, Belo AV, Tarso AM and Beraldo WT. 1997. Sponge-induced angiogenesis in mice and the pharmacological reactivity of the neovasculature quantitated by a fluorimetric method. Microvasc Res 54: 253-261., Ferreira et al. 2004Ferreira MAND, Barcelos LS, Campos PP, Vasconcelos AC, Teixeira MM and Andrade SP. 2004. Sponge-induced angiogenesis and inflammation in PAF receptor-deficient mice (PAFR-KO). Brit J Pharmacol 141: 1185-1192., Schönherr et al. 2004Schönherr E, Sunderkötter C, Schaefer L, Thanos S, Grässel S, Oldberg A, Iozzo RV, Young MF and Kresse H. 2004. Decorin deficiency leads to impaired angiogenesis in injured mouse cornea. J Vasc Res 41(6): 499-508.).

Objectives

1. To standardize a method for the study of angiogenesis.

2. To investigate the effects of thalidomide on angiogenesis.

MATERIALS AND METHODS

Animals from the Faculdade de Medicina do ABC were used. Throughout the experiment, all animals were maintained on a 12:12-h light-dark cycle, under controlled temperature and humidity conditions and with free access to food and water. The experimental protocol was approved by the Ethical Committee for Animal Experimentation (EAEC). Efforts were made to minimize animal suffering and to reduce the number of animals used.

Sponge Implantation

Sponges (0.5 x 0.5 x 0.5 cm) were aseptically implanted subcutaneously on the back of Balb/c mice (n = 14) under general anesthesia with ketamine (100 mg/kg) and xylazine (10 mg/kg), intraperitoneally.

Thalidomide Treatment

Animals were randomly divided into two groups:

1. Control group - 7 animals received by gavage a single daily dose of 0.2 mL of milk for a week.

2. Experimental group - 7 animals were treated with a single daily dose of thalidomide (200 mg/kg) diluted in milk, since the drug is not soluble in water, by gavage for a week.

Animals were monitored daily.

Evaluation of Angiogenesis

After seven days, the mice were anesthetized as previously described. A blood sample from circulation was obtained in order to compare both hemoglobin values from serum and sponge. The sponges were carefully removed and the contents were homogenized in 2.0 mL of saline and centrifuged at 10,000 x g for 15 minutes. The supernatant was filtered through a 0.22 micron filter (Millipore).

Hemoglobin concentration was determined spectrophotometrically at 540 nm by using the hemoglobin assay kit (Sigma Drabkin's reagent).

Statistical Analysis

Hemoglobin content in sponge and in serum was tested using nonparametric Mann-Whitney test. GBstat 9.0 software was used. p < 0.05 was considered statistically significant.

RESULTS

Table I shows ratio between hemoglobin values obtained in sponge and in serum. It is possible to verify that the sponge-induced angiogenesis can be suppressed by thalidomide.

DISCUSSION

A number of pro- and antiangiogenic molecules have entered clinical trials for a variety of diseases. However, in spite of promising results obtained from animal models, many therapies have failed when applied in the clinic. These discrepancies suggest that currentin vivo angiogenesis assays should be improved in order to better understand mechanisms nondevelopmental angiogenesesis during tissue vascularization and repair (Kilarski et al. 2012Kilarski WW, Petersson L, Fuchs PF, Zielinski MS and Gerwins P. 2012. An in vivo neovascularization assay for screening regulators of angiogenesis and assessing their effects on pre-existing vessels. Angiogenesis 15: 643-655. http://www.springerlink.com/content/l32pu18520049645/fulltext.pdf
http://www.springerlink.com/content/l32p... ). Moreover, one of the difficulties of current methods of measuring angiogenesis is the assessment of vascularization which is usually to subjective to be reproducible between laboratories and even between individuals (Andrade et al. 1987Andrade SP, Fan T-PD and Lewis GP. 1987. Quantitative in-vivo studies on angiogenesis in a rat sponge model. Br J Exp Path 68: 755-766.).

This paper describes a quantitative method for the study of angiogenesis in mice. It was adapted from Andrade et al. (1987Andrade SP, Fan T-PD and Lewis GP. 1987. Quantitative in-vivo studies on angiogenesis in a rat sponge model. Br J Exp Path 68: 755-766., 1997)Andrade SP, Machado RDP, Teixeira AS, Belo AV, Tarso AM and Beraldo WT. 1997. Sponge-induced angiogenesis in mice and the pharmacological reactivity of the neovasculature quantitated by a fluorimetric method. Microvasc Res 54: 253-261. and it offers several advantages: (i) an objective assessment of angiogenesis; (ii) reproducibility and (iii) evaluation of angiogenesis by comparison between hemoglobin content in serum and in sponge.

We have shown that the sponge-induced angiogenesis can be suppressed by thalidomide. Thalidomide is listed as a drug that potentially would target multiple components of tumor microenvironment (angiogenesis, inflammation, proliferative activity). Despite these well-characterized effects and a large number of publications, the results of the effects of thalidomide on a number of clinical and experimental protocols are rather contradictory and/or inconsistent (Souza et al. 2012Souza CM, Carvalho LF, Vieira TD, Silva AC, Lopes MT, Ferreira MA, Andrade SP and Cassali GD. 2012. Thalidomide attenuates mammary cancer associated-inflammation, angiogenesis and tumor growth in mice. Biomed Pharmacother 66: 491-498. http://www.sciencedirect.com/science/article/pii/S0753332212000546
http://www.sciencedirect.com/science/art... ).

Thalidomide was approved by the FDA for the treatment of erythema nodosum leprosum (ENL) and multiple myeloma. It has also been demonstrated that thalidomide or its analogs are effective in the treatment of rheumatoid arthritis, Crohn's disease, prostate cancer, Behcet's disease, chronic host-versus-graft disease, lupus erythematosis and HIV-associated oral ulcers. However, teratogenicity, peripheral neuropathy and other adverse effects of thalidomide have led to the design of its new analogs with low toxicity (Amirshahrokhi and Ghazi-Khansari 2012Amirshahrokhi K and Ghazi-Khansari M. 2012. Thalidomide attenuates multiple low-dose streptozotocin-induced diabetes in mice by inhibition of proinflammatory cytokines. Cytokine: 60: 522-527. http://dx.doi.org/10.1016/j.cyto.2012.07.029.
http://dx.doi.org/10.1016/j.cyto.2012.07... ).

The mechanism of thalidomide action is not yet known, but hypotheses include decreased levels of tumor necrosis factor (TNF), interleukin and inhibition of production and co-stimulation of CD8. Reports also suggest that thalidomide has a role in regulating helper cells (Th2). This would increase the production of Th2 cytokines IL4 and IL5 and inhibit the production of inflammatory lymphocytes (Th1) cytokine IFN and range in peripheral blood cells stimulated by antigens and mitogens (Pridgeon and Drake 2005Pridgeon S and Drake M. 2005. Thalidomide and its use in renal and prostate cancer. Cancer Ther 3: 65-76.). Laboratory studies performed with rabbit cornea show that thalidomide has antiangiogenic properties, possibly by blocking the action of potent angiogenic factors such as fibroblast growth factor (bFGF) and vascular endothelial growth factor (VEGF).In vitro studies have suggested that the inhibitory effect of angiogenesis is caused by certain metabolites formed in vivo rather than the parent compound. Another possibility suggests that inhibition of TNF-α may also be responsible for inhibiting angiogenesis, since TNF-α has a positive effect on angiogenesis (Kumar and Chhibber 2011Kumar V and Chhibber S. 2011. Thalidomide: an old drug with new action. Chemother 23(6): 326-334.).

CONCLUSIONS

1. Standardization of a sponge-induced angiogenesis in mice quantitated by comparison between hemoglobin content in serum and in sponge.

2. Sponge-induced angiogenesis can be suppressed by thalidomide.

REFERENCES

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