TAE226-mediated inhibition of focal adhesion kinase interferes with tumor angiogenesis and vasculogenesis.

Neoangiogenesis plays an important role in tumor growth and metastasis. Evaluation of new anti-angiogenic targets may broaden the armament for future therapeutic concepts. Focal adhesion kinase (FAK), expressed in endothelial and tumor cells, is essential for adhesion and mobility of adherent cells. In the current study we analyzed the anti-angiogenic properties of the FAK inhibitor TAE226 on the proliferation of blood outgrowth endothelial cell (OEC) and differentiation of endothelial progenitor cells (EPC), derived from peripheral blood CD133(+) cells, tube formation and on neovascularization in a HT29 xenotransplant model. The effects of TAE226 were compared to those of the rapamycin analogue RAD001. The combination of both drugs was also studied. We showed that HT29 tumor cells and OEC were most sensitive to the action of TAE226 compared to EPC in vitro. In contrast, RAD001 affected the proliferation of both types of endothelial cells stronger than that of HT29 cells. Furthermore we could show that TAE226 inhibited tube formation in a dose dependent manner. In a HT29 subcutaneous tumor model TAE226 and RAD001 diminished MVD at commonly employed doses to a similar degree. Combination of both compounds did not show synergy in vitro or in vivo. Since TAE226 has been shown to inhibit the PI3 kinase, Akt kinase, mTor pathway, addition of RAD001 may not increase this effect. In conclusion, we have shown that treatment with TAE leads to a reduction of neoangiogenesis in vitro and in a mouse model. The effects are mediated by inhibition of angiogenesis and vasculogenic OEC and EPC.

Blood outgrowth endothelial cells from chronic myeloid leukaemia patients are BCR/ABL1 negative.

The existence of adult haemangioblasts with dual haematopoietic and endothelial developmental potential was confirmed after detection of Ph(+) vascular endothelial cells in chronic myeloid leukaemia (CML) patients. Blood outgrowth endothelial cells (OECs) from CML patients were found not to harbour the Philadelphia translocation and were thus not clonally related to BRC/ABL1(+) hematopoietic progenitors, but comprised a distinct subfraction of endothelial cells. Remarkably, the frequency of CML-derived OECs was 9-fold higher as compared to healthy donors (n = 19 and n = 300, respectively; P < 0.0001) and these cells showed increased proliferative potential, possibly reflecting the mobilisation of OEC progenitors by pro-angiogenic cytokines.

Primary tumor dependent inhibition of tumor growth, angiogenesis, and perfusion of secondary breast cancer in bone.

The systemic balance of angiogenic and anti-angiogenic factors has been proposed to play a key-role in primary tumor growth dependent growth suppression of secondary tumors. Despite the importance of the organ microenvironment to angiogenesis and microcirculation, the influence of a primary tumor on secondary bone tumors has not been investigated so far. Since breast cancer has a high propensity to spread to bone, we used an in vivo xenograft model to determine the impact of growing breast cancer cells (MCF-7) in the mammary fat pad on the microvascular properties of subsequently inoculated secondary breast cancer tumors in bone. Mice were either treated with a resection of the primary tumor (n = 10) or no surgery (n = 9) and intravital microscopy was performed over 25 days in bone tumors. Tumor growth in bone was temporarily suppressed by the primary tumor on days 10 and 14. While microvascular permeability and vascular diameter decreased in both groups over time, the presence of the primary tumor was accompanied by a decreased tumor perfusion on days 8 and 10 through a reduction in vessels with diameters between 5 and 20 µm. The results imply a potential benefit of a therapeutic regime in which the resection of the primary tumor is combined with an anti-angiogenic therapy in the perioperative or direct postoperative period. This might result in reduced progression of bone metastasis subsequent to excision of the primary tumor.

Tgf-Beta superfamily receptors-targets for antiangiogenic therapy?

The TGF-beta pathway controls a broad range of cellular behavior including cell proliferation, differentiation, and apoptosis of various cell types including tumor cells, endothelial cells, immune cells, and fibroblasts. Besides TGF-beta's direct effects on tumor growth and its involvement in neoangiogenesis have received recent attention. Germline mutations in TGF-beta receptors or coreceptors causing Hereditary Hemorrhagic Teleangiectasia and the Loeys-Dietz syndrome underline the involvement of TGF-beta in vessel formation and maturation. Several therapeutic approaches are evaluated at present targeting the TGF-beta pathway including utilization of antisense oligonucleotides against TGF-beta itself or antibodies or small molecule inhibitors of TGF-beta receptors. Some of these therapeutic agents have already entered the clinical arena including an antibody against the endothelium specific TGF-beta class I receptor ALK-1 targeting tumor vasculature. In conclusion, therapeutic manipulation of the TGF-beta pathway opens great opportunities in future cancer therapy.

Microcirculation of secondary bone tumors in vivo: the impact of minor surgery at a distal site.

Microcirculatory properties of tumors play a pivotal role in tumor progression and inefficacy of therapies. It has been hypothesized that surgical interventions result in an accelerated tumor growth by increasing the level of pro-angiogenic cytokines with subsequent amplification of tumor angiogenesis. To characterize the microvascular properties of secondary bone tumors in vivo and determine the impact of minor surgery on the microcirculation, we performed intravital microscopy over 25 days using a xenograft model of breast cancer tumor growth (MCF-7) in bone. After engraftment of tumors the mice were treated with a mastectomy versus no surgery. Tumor growth was accompanied by angiogenic sprouting and decreased vascular diameters while blood flow rate and tumor perfusion remained constant. Mastectomy initially led to a significant reduction of functional vascular density, increased vascular diameter, and decreased blood flow velocities. However, neither tumor growth nor tissue perfusion was different between the groups. The presented study corroborates the assumption that tumor microcirculation in bone exhibits similar time-dependent alterations compared to soft tissue tumors. A minor surgical intervention did not change tumor growth kinetics however microcirculatory properties were altered. Whether major surgery has an impact on tumor growth in bone should be clarified in further studies.

Cilengitide inhibits proliferation and differentiation of human endothelial progenitor cells in vitro.

Bone marrow derived hematopoietic stem cells can function as endothelial progenitor cells. They are recruited to malignant tumors and differentiate into endothelial cells. This mechanism of neovascularization termed vasculogenesis is distinct from proliferation of pre-existing vessels. To better understand vasculogenesis we developed a cell culture model with expansion and subsequent endothelial differentiation of human CD133(+) progenitor cells in vitro. alpha(v)beta(3)-integrins are expressed by endothelial cells and play a role in the attachment of endothelial cells to the extracellular matrix. We investigated the effect of Cilengitide, a peptide-like, high affinity inhibitor of alpha(v)beta(3)- and alpha(v)beta(5)-integrins in our in vitro system. We could show expression of alpha(v)beta(3)-integrin on 60+/-9% of non-adherent endothelial progenitors and on 91+/-7% of differentiated endothelial cells. alpha(v)beta(3)-integrin was absent on CD133(+) hematopoietic stem cells. Cilengitide inhibited proliferation of CD133(+) cells in a dose-dependent manner. The development of adherent endothelial cells from expanded CD133(+) cells was reduced even stronger by Cilengitide underlining its effect on integrin mediated cell adhesion. Expression of endothelial antigens CD144 and von Willebrand factor on differentiating endothelial precursors was decreased by Cilengitide. In summary, Cilengitide inhibits proliferation and differentiation of human endothelial precursor cells underlining its anti-angiogenic effects.