Oliver Kisker

Phosphoglycerate kinase acts in tumour angiogenesis as a disulphide reductase

Disulphide bonds in secreted proteins are considered to be inert because of the oxidizing nature of the extracellular milieu. An exception to this rule is a reductase secreted by tumour cells that reduces disulphide bonds in the serine proteinase plasmin. Reduction of plasmin initiates proteolytic cleavage in the kringle 5 domain and release of the tumour blood vessel inhibitor angiostatin. New blood vessel formation or angiogenesis is critical for tumour expansion and metastasis. Here we show that the plasmin reductase isolated from conditioned medium of fibrosarcoma cells is the glycolytic enzyme phosphoglycerate kinase. Recombinant phosphoglycerate kinase had the same specific activity as the fibrosarcoma-derived protein. Plasma of mice bearing fibrosarcoma tumours contained several-fold more phosphoglycerate kinase, as compared with mice without tumours. Administration of phosphoglycerate kinase to tumour-bearing mice caused an increase in plasma levels of angiostatin, and a decrease in tumour vascularity and rate of tumour growth. Our findings indicate that phosphoglycerate kinase not only functions in glycolysis but is secreted by tumour cells and participates in the angiogenic process as a disulphide reductase.

Therapeutic efficacy of endostatin exhibits a biphasic dose-response curve.

We show here that recombinant endostatin protein has a biphasic effect on the inhibition of endothelial cell migration in vitro. In tumor-bearing animals, there is a similar biphasic effect on the inhibition of tumor growth and on circulating endothelial cells after once-daily s.c. injections. This biphasic effect is revealed as a U-shaped curve in which efficacy is optimal between very low and very high doses depending on the tumor type. This result may be applicable to other inhibitors of endothelial growth and to angiogenesis. Furthermore, these results have important implications for clinicians who administer angiogenesis inhibitors for cancer or other angiogenesis-dependent diseases. When these results are taken together with two previous reports of angiogenesis inhibitors with a U-shaped dose-response, they suggest that other regulators of endothelial growth may display a similar pattern.

A peptide trivalent arsenical inhibits tumor angiogenesis by perturbing mitochondrial function in angiogenic endothelial cells

Mitochondria are the powerhouse of the cell and their disruption leads to cell death. We have used a peptide trivalent arsenical, 4-(N-(S-glutathionylacetyl)amino) phenylarsenoxide (GSAO), to inactivate the adenine nucleotide translocator (ANT) that exchanges matrix ATP for cytosolic ADP across the inner mitochondrial membrane and is the key component of the mitochondrial permeability transition pore (MPTP). GSAO triggered Ca(2+)-dependent MPTP opening by crosslinking Cys(160) and Cys(257) of ANT. GSAO treatment caused a concentration-dependent increase in superoxide levels, ATP depletion, mitochondrial depolarization, and apoptosis in proliferating, but not growth-quiescent, endothelial cells. Endothelial cell proliferation drives new blood vessel formation, or angiogenesis. GSAO inhibited angiogenesis in the chick chorioallantoic membrane and in solid tumors in mice. Consequently, GSAO inhibited tumor growth in mice with no apparent toxicity at efficacious doses.

Vitamin D Binding Protein-Macrophage Activating Factor (DBP-maf) Inhibits Angiogenesis and Tumor Growth in Mice

We have isolated a selectively deglycosylated form of vitamin D binding protein (DBP-maf) generated from systemically available DBP by a human pancreatic cancer cell line. DBP-maf is antiproliferative for endothelial cells and antiangiogenic in the chorioallantoic membrane assay. DBP-maf administered daily was able to potently inhibit the growth of human pancreatic cancer in immune compromised mice (T/C=0.09). At higher doses, DBP-maf caused tumor regression. Histological examination revealed that treated tumors had a higher number of infiltrating macrophages as well as reduced microvessel density, and increased levels of apoptosis relative to untreated tumors. Taken together, these data suggest that DBP-maf is an antiangiogenic molecule that can act directly on endothelium as well as stimulate macrophages to attack both the endothelial and tumor cell compartment of a growing malignancy.

Treatment of human pancreatic cancer in mice with angiogenic inhibitors.

Tumor growth is dependent on the balance of positive and negative regulators of angiogenesis. Antiangiogenic compounds inhibit endothelial cell biology in vitro and angiogenesis in vivo. Therefore antiangiogenic therapy presumes to be an effective treatment for pancreatic cancer. We wanted to determine the effect of antiangiogenic therapy on the growth of human pancreatic cancer in a mouse model. The angiogenesis inhibitors TNP-470 and antiangiogenic antithrombin III (aaATIII) were tested in vitro for their ability to inhibit endothelial cell proliferation. These inhibitors, along with the known antiangiogenic molecule endostatin, were then employed to treat two different primary human pancreatic cancers implanted subcutaneously into the dorsa of immunodeficient (SCID) mice. Treated tumors were examined histologically for microvessel density, apoptosis, and proliferation. All three inhibitors suppressed the growth of pancreatic tumors in vivo. Immunohistochemical analysis revealed increased degrees of apoptosis and reduced microvessel density in treated tumors compared to untreated tumors, although tumor cell proliferation was the same in both groups. None of the inhibitors tested significantly inhibited proliferation of human pancreatic cancer cells, although both TNP-470 and aaATIII were able to inhibit the proliferation of endothelial cells. The observed tumor suppression may be due to increased tumor cell apoptosis as a result of capillary dropout. These studies show that after the angiogenic switch in a human tumor, there is residual production of angiogenesis inhibitors.

Pancreatic tumor growth is regulated by the balance between positive and negative modulators of angiogenesis

There is increasing evidence for the implication of tumor-derived angiogenic and anti-angiogenic factors in controlling tumor growth in vivo. In this study, we documented the production of inhibitors of angiogenesis by pancreatic cancer cells and examined how changes in the balance between pro- and anti-angiogenic factors regulate tumor growth in vivo. The human pancreatic cancer cell line Hs-776T (HS-W) produces slow-growing tumors in SCID mice. Cells of a variant form (HS-R) of Hs-776T produced faster-growing tumors compared to HS-W. Characterization of HS-W and HS-R cells in vitro showed similar proliferation rates and production of the angiogenic factors vascular endothelial growth factor (VEGF) and basic fibroblast growth factor (bFGF). Analyzes of anti-angiogenic factors showed comparable levels of angiostatin and thrombospondin 1 and 2, but endostatin was only detected in conditioned media of HS-W cells and was absent in HS-R. Cell proliferation was similar in both tumor types in vivo, whereas HS-W tumors demonstrated increased apoptosis with a high percentage of apoptotic endothelial cells (EC). Subsequently, VEGF was over-expressed in Hs-776T cells (HS-VF), resulting in rapidly growing tumors and lowering tumor and EC apoptosis. Collectively, our study confirms that tumor growth is dependent on its ability to increase the angiogenic stimulus or to reduce the amounts of endogenous anti-angiogenic factors.

Efficacy of antiangiogenic therapy with TNP-470 in superficial and invasive bladder cancer models in mice.

OBJECTIVES To evaluate the efficacy of antiangiogenic therapy with O-(chloracetyl-carbamoyl) fumagillol (TNP-470) in a superficial and an invasive bladder cancer model in mice. The control of recurrent superficial and metastatic bladder cancer constitutes a major problem in urologic practice. Although the established therapies for these cases (immunotherapy, chemotherapy, and radiation therapy) have improved during the previous decades, further improvement and the reduction of existing side effects are needed. The inhibition of angiogenesis represents a new concept in cancer therapy. METHODS We evaluated the in vitro effect of TNP-470 on the proliferation of bovine capillary endothelial cells (BCE), the superficial transitional cell carcinoma (TCC) cell line (KK-47), and the invasive TCC cell line (MGH-U1). To evaluate the in vivo effect of TNP-470 on the growth of advanced TCCs, both cell lines were injected subcutaneously into SCID mice. When tumors grew to a size of 100 to 200 mm(3), therapy either with TNP-470 or phosphate-buffered saline was initiated. RESULTS TNP-470 strongly inhibited endothelial cell proliferation in vitro. The in vitro proliferation of both bladder carcinoma cell lines was also inhibited by TNP-470. However, the doses inhibitory to bladder carcinoma cells were 100-fold higher than the doses that were effective in the inhibition of endothelial cell proliferation. In vivo, TNP-470 significantly inhibited the growth of advanced KK-47 (67%) and MGH-U1 (68%) tumors in SCID mice. CONCLUSIONS Our results indicate that antiangiogenic therapy with TNP-470 is equally effective in advanced superficial and invasive bladder carcinoma models in mice. When our results are taken together with the reports of other laboratories, TNP-470 appears to be a promising candidate as a tumor suppressor in superficial and invasive bladder cancer.

Ein neuer Angiogenese-Inhibitor (DBP-maf) inhibiert die Endothelzell-Biologie und das Tumorwachstum im Maus-Model

Background: Tumor growth is dependent upon the balance of positive and negative regulators of angiogenesis. At least three antiangiogenic molecules have been previously isolated from conditioned media of tumors where these tumors have shown antiangiogenic potential in a mouse model. Methods and Results: BxPc-3 conditioned media (containing 5% fetal calf serum) was applied to a heparin Sepharose column and eluted with a 0.5 M NaCl steps. Fractions that inhibited capillary endothelial cell proliferation were further purified using Q-Sepharose and monoQ anion exchange chromatography. The inhibitory activity was associated with a protein of 53 kD. Sequence analysis revealed identity to Vitamin D binding protein (DBP). Purified DBP itself had no significant effect on endothelial cell proliferation. Therefore we tested the ability of serum free conditioned media from BxPC3 cells to process DBP by incubating DBP in conditioned media. The converted DBP specifically inhibited endothelial proliferation and was able to stimulate macrophages. Vitamin D binding protein-macrophage activating factor (DBP-maf) was able to suppress tumor growth in a dose dependent manner significantly. Immunhistological analysis showed a significantly reduced micovessel density and a elevated apoptotic rate and an unchanged proliferation rate. Conclusions: Human pancreatic cancer cell line express enzymatic activity which converts DPB to DBP-maf. This molecule inhibits endothelial cell biology in vitro and angiogenesis in vivo and is therefore a new candidate for antiangiogenic tumor therapy.

Antiangiogene Therapie von Pankreaskarzinomen im Mausmodell

Einleitung: Das Tumorwachstum unterliegt einer Balance zwischen positiven und negativen Regulatoren der Angiogenese. Antiangiogene Faktoren inhibieren potent die Endo-thelzellproliferationin vitro und das TumorWachstumin vivo. Daher konnte die antiangiogene Therapie ein neues Konzept zur Behandlung von Pankreaskarzinomen liefern.